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  • The UK Higher Education Blog

    Educating the next generation of innovators

    • 0 Comments

    Faculty Connection is your online resource for teaching technology concepts using Microsoft technologies. We provide relevant and applicable tools—from syllabi to lecture materials and from videos to labs and assignments aligned to ACM Knowledge Areas.
    It’s all here to help make your classroom more engaging and your students more successful.

    To learn more, the full brochure can be viewed/downloaded below:

  • The UK Higher Education Blog

    Ultimate Steal - Office 2007 offer Update

    • 82 Comments
    ShoppingTrolley

    We've made a few changes to the Ultimate Steal website (Office 2007 Ultimate for students, for £38.95), all of which are good news. Here's what we've done:

    Added the Backup DVD option to the ordering options
    To be honest, we have been trying to put this here ever since launch, but some technical glitches stopped us. It's now there, so students can order media at the same time as ordering the licence. This is handy if they don't want to use the download service, or they want a backup.

    Added email verification BEFORE entering the purchasing process

    We've been getting hundreds of students who have incorrectly entered their email address during the purchase process, which means they haven't received their licence key after purchase. It's tricky for us to resolve these individual problems quickly, and also inconvenient for students. So now, before you get to the online shop process, you have to provide your student email address (ending in .ac.uk) and then get an email confirmation and website login. This way, if you put in the incorrect email address, you won't get your website login - you'll have to go back and enter it again correctly.

    Even more reasons to tell your students about the Ultimate Steal

  • The UK Higher Education Blog

    Ready-made IT user documentation

    • 0 Comments

    When I started working at Microsoft, I hadn’t been in such an open, technology rich culture before. And with so many IT systems around, and so many different software resources, my head was buzzing. In fact, I remember that at the end of the first week, the number of links in my Favourites was massive – just to internal websites.

    I’d never used internet telephony, encryption, instant messaging, live meeting, SharePoint or Groove before, so I was all at sea until I could play around and work out how they were supposed to operate. Meanwhile, people who’d been at Microsoft for a while were metaphorically whizzing past me, as they collaborated, shared, published and distributed information. Whilst I was trying to work out how to answer my desk phone.

    imageOne of the godsends for me was a set of documents called Work Smart Guides, which walked me through the basics of some of the new technology I was encountering.

    As our IT team describe it, Work Smart Guides bridge the gap between technology and users. Work Smart guides provide employees with scenario-based, best-use productivity aids on Microsoft products and technologies.

    We produce them because we expect to see more consistent, productive, and cost-effective use of products and technologies across the company – which helps the business ROI on IT investments, as well as helping people to understand the benefit the IT team deliver to users.

    Ready-made IT guides

    I found out today that we have also published them for customers to modify and use. This seems a great step – because I’m guessing that every university in the UK is producing user documentation where 80-90% of the content is identical. So these guides would make a good starter for 10, either for the format, or the instructions, or the simple screenshots. As an example, here’s the Email Basics one.

    The subjects covered in the step-by-step guides for users include:

    • Environmental sustainability (hints like using Balanced power settings on your laptop)
    • Protecting data with BitLocker
    • Getting started with email
    • Transfer files and settings to a new computer
    • Collaborating with SharePoint
    • An overview of collaboration tools
    • Customising SharePoint sites
    • Integrating Outlook with SharePoint
    • Basics of managing email (Are you a stacker or a filer?)
    • Office tips
    • Outlook email signatures
    • New features for users in Windows 7

    Download the Work Smart Guides

    You can download the customisable versions of Work Smart materials from TechNet. There are 23 of them, and they come in one big Zip file for you to play with.

    Bonus: You should also be looking at the Windows 7 Problem Steps Recorder, described by Long Zheng as a miracle tool. It does what it says on the tin, and the best bit is that the document it creates is brilliant for creating user guides, with screen shots and step-by-step instructions.



  • The UK Higher Education Blog

    Office 2010 for students – via the Ultimate Steal

    • 2 Comments

    image

    Each year we run a special offer (called The Ultimate Steal) on Microsoft Office, only for Higher & Further education students and staff who have a .ac.uk email address. It allows them to buy the software directly from Microsoft, and make a big saving on the equivalent retail price. As we get closer to the release of Office 2010, the number of students buying the software has flattened out (and who can blame them - why buy the 2007 version when Office 2010 is just around the corner?).

    In previous years universities have told their students about the deal, via their email or internal IT support website, but this year less have, because students can download the Office 2010 beta for free, and then wait for the full release.

    But there are two good reasons why it’s right to remind your students now about the Ultimate Steal offer, before the release of Office 2010 in June…


    No-cost upgrade to Office 2010

    Since 5th March, any student or member of staff buying Office 2007 through the Ultimate Steal has been entitled to get a no-cost upgrade to Office 2010 when it is released (as a digital download).

    A price increase coming

    It’s just been confirmed that when Office 2010 is launched, the price of the student offer with the new version will be increasing by around £10 (although it will still be significantly cheaper than normal retail prices)

     

    So here’s the summary:

    • The best price for students to get Office 2007 Ultimate Edition is £38.95 with the Ultimate Steal deal – saving 90% off the estimated retail price for the Ultimate edition
    • It now includes a no-cost upgrade to Office 2010
    • If students/staff wait to buy until the release of Office 2010, they’ll end up paying 25% more

    So there’s a brief window from now until June when students and staff can get the best of both worlds – Office 2010 at the lower Office 2007 price.

    UltimateSteal_OO_298x100

    ps You can also pick up Windows 7 with a student discount from The Ultimate Steal site too

     




  • The UK Higher Education Blog

    UCL Computer Science Case Study

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    University College London (UCL), a leading UK university, transforms its Computer Science teaching by introducing students to app-building tasks which address real life problems for business, public services and charities.

    In order to achieve this, students and staff deploy a full range of Microsoft technologies, including Windows 8, supported by Microsoft’s developers and researchers. By doing so, the University is able to further to enhance the motivation and employment prospects of its students, confirm its role as an international force in the development of computing and set out a model that has far-reaching implications for teaching and learning in higher education. 

    Something exciting happening in London

    The Department of Computer Science at University College London (UCL) has a global reputation. As the Department’s web page says, 

    ‘In the most recent Research Assessment Exercise, 80% of our work was rated world-leading or internationally excellent.’

    At the same time, higher education is changing. Students no longer want to just sit in lectures and produce assignments seen and marked only by their teachers. They’d prefer to do things that matter, and change the world.

    Nowhere is that challenge more evident than in Computer Science. Here particularly, explains Dr Dean Mohamedally, Senior Teaching Fellow in Software Systems Engineering, tradition has been unceremoniously set aside, in this case by the arrival of apps – ‘micro software engineering’ packages that are closely targeted to real-world end users who have specific requirements and problems to solve.

    ‘Students can now take what was previously given as a coursework exercise, harness it, and put it in a wrap up package and most importantly, ship it to do something useful.’

    At UCL the response has been decisive and quick. In September 2011, a number of syllabus updates were put into motion. Starting with first years and Masters courses, there was a radical rewrite of courses that would put the building of apps at the core of learning to program, on all taught degrees. UCL became the first university in the UK to treat apps development as a core computer science skill, where each and every CS student gets to solve real-world problems through deployment.

    ‘Deployment’ is a key word and concept for the problem solving approach, says Dean Mohamedally. It is a word that has previously been mistreated in Computer Science – how do we get the final reach to users?

    ‘That magic word is going to define the future of computer science for all our year groups. Their student CVs will show a wealth of harnessed knowledge in Computer Science, released to the domain that would use them best.’

    As a result, during 2011/2012, first year students were resourced and guided as they built android apps right from their first major Object Oriented Programming course. These eventually included the building and deployment to the field of some very well-received data-gathering tools for charities working in the developing world

    ‘These two charities, Restless Beings and Health Partnership Nepal, asked if we could help with their data collection methods,’ says Dean. ‘They had healthcare workers in Asia and Africa collecting information on children who are in harm’s way and they were setting up the necessary administration to get health supplies out there. In regions where surgeons need to audit further and gather data on necessary medicines, data reporting is critical to their success given limited access available for resources.’

    Unsurprisingly, the effect on student motivation of this kind of engagement is dramatic, and many students go far beyond the immediate demands of their coursework to help. As a result of this evident success, UCL Computer Science courses at all levels are increasingly focused on writing applications that address real problems and requirements. Here, the University’s carefully fostered relationships with businesses and other organisations in healthcare, finance and the charity sector pay special dividends, and there’ll be no shortage of real problems for students to solve.

    Engaging with Microsoft

    By September 2012, with Windows 8, and Windows apps well on the way, the Department of Computer Science has built on their world-leading experience across their fields, in Software Systems Engineering, Networking, Machine Learning, Programming Principles, Logic and Verification, Virtual Environments and many more. Through all of these subject arenas, they have turned increasingly to Microsoft technologies, services and especially Microsoft people highly entwined – all of the named groups above have ties directly with Microsoft Research.

    As Dean puts it regarding the teaching arena -

    ‘We’ve made a huge push for Microsoft technology. Its what the world uses to solve problems and our students should be at the forefront of solving. We have found that many of our courses can open new opportunities by using the Microsoft development tools.’

    image

    There’s a specific approach, he says.

    ‘Our teaching steers them with the theory and depth of each Computer Science knowledge domain. We teach them to identify the needs of the client to define the problem, to talk through and learn to communicate properly their cases both as individuals and as teams, to analyse and to test with strategies and to ensure logical design through formal proofing methods. Microsoft’s well published specifications, APIs and technology access in education enables students to explore how to make full use of the subtleties of the technology platforms available, merging with the domains of Computer Science.’ For example, the use of F# in algorithm design and the new features of HTML5 + JavaScript to construct user interfaces for apps.

    Already, over the Summer of 2012, two major projects were tackled by UCL MSc Software Systems Engineering students, in co-operation with Microsoft and using Microsoft development tools.

    One project, ‘Powersource’ , is a Microsoft Visual Studio 2012 plug-in for tracking the progress of ‘Agile’ software development teams in both the academic and business environments. Applied to a school or college for example, it could provide a teacher with continuous feedback on the work of teams of computer science students, detecting errors and bugs in their work before they reveal themselves at the end of the process. ‘Powersource’ was built with development tools including Visual Studio 2012 Team Foundation Server 2012 and Windows Presentation Foundation. It will be released globally on ‘CodePlex’, Microsoft’s Open Source Project Hosting website.

    Another MSc project, ‘Pasteur’, also exploited the features in Visual Studio and using .NET ‘Gadgeteer’. It demonstrated a platform for consultant surgeons in a cloud solution, hosted on Windows Azure, to measure the physical dexterity of trainee paediatric surgeons with a range of sensor types. The Gadgeteer platform from the Devices and Sensors group at Microsoft Research is a cutting edge platform for learning about sensor control as well as providing a vast array of componentized device types. This enables developers to simulate the prototyping of brand new categories of devices.

    Both these applications were highly praised, eagerly received and fully supported by their client groups.

    ‘Those advanced projects, given their appropriate use of the state of the art and that they apply to a highly significant user base, is entirely inspirational for younger students who have a serious drive to explore,’ says Dean.

    clip_image003

    ‘DreamSpark’ and Windows 8

    UCL Computer science students use a range of technologies – ‘Technology agnostic’ is how Dean describes the approach. At the same time there’s no doubt that Microsoft’s development tools, supported in action by Microsoft developers and researchers, are increasingly becoming key drivers of learning and creativity in the Department.

    Visual Studio and Team Foundation Server, for example, are in constant use and they, together with a wide range of other development tools are available to students within the Microsoft online education resource ‘DreamSpark’.

    ‘DreamSpark is very important for us,’ says Dean Mohamedally. ‘It gives students all the development tools that they need for their learning – full versions, the latest databases and servers, at no cost.’

    DreamSpark Premium also now includes Windows 8 and from November 2012 student app developers will be working in Windows 8. There is, for example, an MSc course where students will design and build apps for Windows 8 devices, for Kinect for Windows, Windows 8 Phones and Tablets, using programming tools in Visual Studio.

    ‘They’ll be full-bodied apps with real world users in their design,’ says Dean Mohamedally. ‘Their marking criteria are set specifically to encourage them to reach the standard to approve that their work will go in the Windows Store. There is visibility and a measure of success in the feedback of end users downloading your own technology.’

    Second year Systems Engineering undergraduates, in teams of four or five, are also developing projects using Windows 8. One group is creating a learning environment for a local secondary school that emphasizes student collaboration and creativity. The solution uses the Microsoft PixelSense, Kinect for Windows along with Windows Azure Cloud access for collaborating with students on devices along with touch and motion gestures. One group is working with the University College Hospital (UCLH) to creating a mobile data monitoring service to help collate nutrition data, via a Windows 8 app, in post-operative heart patients. This system will make use of touch screens and especially digital inking, a great business-case feature that has been available in Windows for several years growing in accuracy. Another of the groups is working on a networked vehicle system to be fitted in a taxi or delivery service. In this project, the students are going all out with gadgeteer sensors, pico projectors and use of the Windows Azure Storage Services REST API for providing a service layer of communication to all related vehicles.

    Dean is excited by the way the students are treating access to new technologies. ‘Its no longer relevant to industry, to just say a student knows a language like Java and therefore they are a programmer. What about robust coding, variety of languages, exposure to bug fixing, and the nuances of adopting underlying protocols to form a solution? What about clarity in test suites, securing your deployed code and the ability to function in a team – both when requirements are fully defined, and when the need to prototype and build something totally new is needed?’

    ‘The Kinect hacks that students did with betas from Microsoft before the Kinect SDK was made available were the tip of the iceberg – they want to play, find applications of use and show what else can be realized with new technologies. They are absorbing techniques and methods at an incredible rate.’

    He has added possibilities for his students’ work offered by Windows 8 –making use of multi-monitor and touch-screen capabilities, for example, to enhance the rich interaction and information visualization features that are important in many of the new industry applications being developed. Even he himself uses Windows 8 in teaching with a great new paradigm of presenting – hosting three screens in a lecture simultaneously, with one for Powerpoint presentation, one for compiling code in Visual Studio or designing classes in Visio, and the final screen for either Skype, output to devices, debug output or other information.

    ‘We have a new ability to add a skype screen to the lecture – we can literally add an external guest, an industry partner or even an examiner to join the class and answer questions like a window through the wall, whilst showing Powerpoint and the code output in Visual Studio – this is done using regular HD cameras and large monitor screens via Windows 8’

    clip_image005

    Most important, though, for the students, is the prospect of writing projects which will run on all major hardware platforms; PCs, Windows Phone and Windows surface tablets. The underlying architecture of windows 8 is common to all of those devices. To facilitate this realization, they built a special purpose apps lab that all devices could be used for testing software developed by students.

    clip_image007.

    ‘In the global marketplace you know that’s good economics,’ says Dean.

    Even before Windows 8 was available, software under development at UCL was being built with an eye to Windows 8 features, with the co-operation of Microsoft developers,

    ‘Microsoft gave us sessions where they explained what Windows 8 could do, and we did some forward thinking,’ says Dean.

    ‘So we knew what was coming and it was a case of how far you could take what we were doing as close to Windows 8 features as possible. It would only need small team then to make it ready to deploy on Windows 8.’

    In touch with the future

    This short study makes it clear that Microsoft is doing much more than simply supplying software and hardware for Computer Science courses at UCL. As Dean puts it, it’s about Microsoft developers and researchers helping academics and students to make the most of the technology.

    The Department of Computer Science recently hosted a Windows 8 developer day alongside Microsoft UK, of which all student years were kindly invited. In testament to the value that students placed, over 220 students from across the Computer Science year groups attended. At this event it was announced that UCL would be hosting the UK finals for the Imagine Cup – the largest student competition for Microsoft. This event will take place in March and April on UCL’s main quad campus.

    In order for this new way of teaching to succeed, it is of the highest value to UCL that the Department of Computer Science works as a family in forming its relationship with Microsoft. Its Admin and Finance team, the Technical Support Group team, the world class Research groups and of course the Teaching teams, all identify the areas that Microsoft technologies best integrate into their aspects and respective responsibilities that ultimately lead to the new highly problem-based learning curriculum.

    The one lasting message that comes from UCL, with Microsoft’s support is the following.

    ‘Students must become visible. They must demonstrate skills that show that they are strategic. They must be fearless with new technology and ideas, and above all – they must publish to make change.’

  • The UK Higher Education Blog

    Ultimate Steal - Staff now eligible

    • 11 Comments

    With only three weeks to go, I can imagine this blog post could create some howls...but better late than never (even if the offer is only open for 3 weeks).

    We have just managed to convince all the powers-that-be that staff should also qualify for the Ultimate Steal. Until today, if members of staff in your university wanted a copy of Office, they could either buy the "Home & Student" version in a shop/online (at about £80-90), or use Home User Rights (if you allowed them, and you'd both agreed to the terms), or various other convoluted routes. But now we've managed to get the lawyers and licensing teams to agree to include staff into the Ultimate Steal offer.

    What does this mean?

    Staff can now purchase, for their own use at home, a copy of Office 2007 Ultimate Edition, for £38.95, via www.theultimatesteal.co.uk

    What's the qualifying criteria?

    The lawyers insisted there should be some qualifying criteria (after all, they argued, what happens if somebody is employed as a tea lady - do they qualify?) and so we created some with them. Hopefully it is easy for all of your staff to qualify - including the tea lady. There are just two simple criteria:

    1. Staff must hold a valid email address at a UK, Jersey, Guernsey or Isle of Man educational institution, ending in either ‘.ac.uk’, ‘ac.im’, ‘ac.gg’ or ‘ac.je’.

    AND

    2. You must be employed at an education institution geographically located in the United Kingdom, Jersey, Guernsey or the Isle of Man, for at least an average of 8 hours per week or 4 teaching hours per week

    Do we have to do anything?

    Nothing other than letting your staff know they've got 3 weeks (and counting) to take advantage of the offer - it closes on 30th April. If you want an email template, take a look at this post

  • The UK Higher Education Blog

    DreamSpark - Free software for your students

    • 8 Comments

     

    I guess this will be pretty big news on the Internet. And if I've timed this right - and you're reading this just after I've blogged it - then you're one of the first to find out.

     

    We have launched a programme called "Microsoft DreamSpark", which allows university and college students to download a range of free development and design software resources to help them in their studies. The suites available include Visual Studio (described as "the Swiss Army knife of computer programming"), which is the kind of toolset which can help you programme everything from a computer, to a mobile phone, or a web page. It also includes the major applications in the Expression design suite - including Expression Web, Expression Blend, Expression Design & Expression Media. And for development work, there's also SQL Server & Windows Server.

    From today, these are available to more than 6.5 million FE & HE students. Last year's survey co-sponsored with Intellect, the British Computer Society, and The City University, London demonstrated that the "Knowledge Economy" (is that a Microsoft-ism?) is the fastest growing part of the UK economy, and there's a real need to ensure that students have the chance to get the technical skills they may need to operate within it.

    Whilst it's easy to think that this will only be of interest to technical students, there's plenty of other areas affected - things like design, where digital design is one of the fastest growing areas; and the ability to manipulate and analyse masses of data seems to spread across most subjects.

    Students don't need to get additional validation or accreditation from their university or college to do this download - they can download as long as they have an Athens ID (that's pretty standard for all university students and most college students) or an ISIC card. For more info on the verification of UK students, take a look at Ed Dunhill's blog.

    There's more about this on Channel 8, and you can also read the press releases on PressPass

    At the moment, this is available in 10 countries, including the UK.

  • The UK Higher Education Blog

    Office 365 Xbox Promotion

    • 0 Comments

    We are delighted to announce that our latest Microsoft Office 365 Summer offer is now up for grabs for a limited time.  Running until 28th September, 2013, 12 months of free Xbox Live Gold membership is now included with all Office 365 Home Premium or Office 365 University subscriptions.

    image

    Claiming your Xbox Live Gold subscription is simple. When you purchase an Office 365 Home Premium annual subscription or Office 365 University, follow the three simple steps here to start enjoying 12 months of Xbox Live Gold.

    Please note, the offer is only eligible for purchases made between 18th July and 28th September 2013.

    See the offer details and terms for complete information, including eligible countries/regions.

    Office 365 Home Premium Features

    clip_image002

    Office 365 Home Premium has many advantages including access to the latest Office applications on up to 5 PCs or Macs and 5 mobile devices. Home Premium is ideal for all members of the family delivering access to the Home suite from work, from school, from home, or on the go, enabling the family to stay connected and share together. Cloud capabilities open up the possibility of working, connecting and learning anywhere with internet access, and any time, thanks to real-time updates. Office Home Premium provides all Office apps plus a generous 7GB of SkyDrive storage, and 60 free minutes of Skype world minutes per month. For either £79.99 per year or £7.99 a month, your family can all enjoy a whole new experience of learning and working. For more information, click here.

    Office 356 University Features

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    For busy students and teachers, working and learning has never been more interactive than with Office 365 University. Accessible for up to two PCs or MACs, the 4 year Office 365 subscription can be installed to any two devices in the four year period, ideal for cash-strapped students carrying out a 4 year degree program, likely to require an expensive laptop upgrade! The Cloud will transform the logistics of collaborative work and learning for students and teachers, enabling real-time sharing of PowerPoint presentations, group work, lecture slides, calendars and many more aspects. What's more, thanks to the Cloud, working and studying on the move has never been easier with virtually anywhere access to Office 365 from any computer with internet and Windows 7 or 8.  Office 365 University provides all Office apps plus a generous 7GB of SkyDrive storage, and 60 free minutes of Skype world minutes per month. For just £59.99 for four years, enhance the way you learn and work independently and with your peers and colleagues. For more information, click here.

    So what does Xbox Live Gold bring to the table?

    clip_image004

    Aside from the exciting entertainment experiences Xbox Live can bring to the living room with online multiplayer gaming, free game downloads and on demand TV show and movie streaming, there are educational benefits too. Smartglass technology enables users to easily connect their smartphone or device to the television screen and explore and research on the net without having to use a mouse or keyboard. This can transform the appeal of after school group work for students and add a 'fun' spin on learning. To find out more about the many features of Xbox Live Gold, click on the video link here.

     

    Make the most of the summer Office 365 Xbox offer and get ahead of the game for next academic year.

  • The UK Higher Education Blog

    Creating the Windows 8 user experience

    • 0 Comments

    Ok so we know this is a bit of a lengthy blog post! But it’s well worth a read to find out about the new Windows 8 user experience, along with some great Windows user interface history.

    Originally posted by Building Windows 8

    This blog often focuses on the bits and features and less on the “philosophy” or “context” of the product. Given the level of brand new innovations in Windows 8, however, we think it is worth putting Windows 8 in the context in which we approached the design. As with any significant change to a broadly used product, Windows 8 has generated quite a bit of discussion. With millions of people using the Consumer Preview for their daily work, we’ve seen just as many points of view expressed. Many people—from David Pogue of the New York Times to Mat Honan from Gizmodo and many more—have been quite positive, and others less so, most notably in the comments on this blog, where we’ve seen the rich dialog we’d hoped for. Some have asked about design choices we’ve made in the product and the evolution of Windows or suitability of the design to different people. Some bloggers believe it is critical to further separate the traditional desktop from Metro style elements. Other people believe passionately that it is important to make the desktop more like the Metro style interface. There are as many opinions as there are folks who have tried out the Consumer Preview. Designing a new release of a product already used by a billion people in a billion different ways is, as we say, like ordering pizza for a billion people. Doing so out in the open encourages this dialog, and we embrace and value it. Jensen Harris, Director of Program Management for our User Experience team, authored this post.
    --Steven


    At the D: All Things Digital conference in June 2011, we demonstrated for the first time the new user interface that we developed for Windows 8. This new UI is fast and fluid to use, and optimized for mobile form factors such as laptops, tablets, and convertibles, where people spend the vast majority of their time today. Windows 8 works equally well with mouse, keyboard, or your fingers, and has the best pen support of any OS. It supports multiple displays and the widest array of configurations and form factors of any OS. On top of all that, Windows 8 introduces a new kind of app, which we codenamed “Metro style” following the design language that has evolved going back to Windows Media Center and the new Windows Phone. These apps are immersive, full-screen, beautiful, and optimized for the ways that people commonly use devices today.

    I thought it would be useful to take a step back and describe a little bit of the background of how the Windows 8 user interface was designed, and discuss some of the decisions we’ve made and the goals of this new experience in more detail.

    A brief history of the Windows user interface

    The user interface of Windows has evolved and been transformed over the course of its entire 27-year history. Although we think about certain aspects of the Windows UI as being static or constant, the reality is that the interface is always changing to keep up with the way people use PCs. It is amazing to reflect back on the history of the Windows UI, and to see the level of dramatic change that has transpired over time.

    Since Windows 8 marks a significant evolution of the user experience, I will focus on the releases where the user interface of Windows changed most significantly, and some of the initial perception surrounding those shifts. If you are interested, a full history of Windows is available to read on the Microsoft website.

    Windows 1

    Windows 1 was released in 1985, and it was designed for drastically different scenarios than what people use PCs for today.

    3 windows appear in a grid layout. Along bottom of screen are icons for a disk, a calculator, a paint program, and 2 more icons.

    The first version of Windows was a rough graphical shell around DOS, intended primarily to be used with the keyboard. A mouse was strictly optional and very few PCs had one.

    In fact, the mouse was a bit of a curiosity at the time, perceived by many experienced users as inefficient, cumbersome, un-ergonomic, and hard to learn how to use. The mouse was certainly exotic. Do you roll it on the screen? Do you pick it up and talk into it?

    Here are a couple of published expert opinions from early 1980s print publications about whether the mouse would catch on:

    • “Mice are nice ideas, but of dubious value for business users” (George Vinall, PC Week, April 24, 1984)
    • “There is no evidence that people want to use these things.” (John C. Dvorak, San Francisco Examiner, February 19, 1984)
    • “I was having lots of fun, but in the back of my corporate mind, I couldn't help but think about productivity.” (George Vinall, PC Week, April 24, 1984)
    • “Does the mouse make the computer more accessible, more friendly, to certain target audiences such as executives? The answer is no.” (Computerworld, October 31, 1983)
    • “There is no possibility that this device will feel more comfortable to the executive than the keyboard. Because of its ‘rollability,’ the mouse has the aura of a gimmick…” (Computerworld, October 31, 1983)
    • “The mouse and its friends are merely diversions in this process. What sounds revolutionary does not necessarily help anyone with anything, and therein lies the true test of commercial longevity.” (David A. Kay, Datamation, October 1983)

    So, as you can see, the mouse was considered gimmicky, unnecessary, and not useful for mainstream use. On the other hand, some people are now asserting that the mouse is dead.

    Windows 3 and 3.1

    The first commercially successful version of Windows was Windows 3, released in 1990. It featured a totally new interface, centered on a new shell called Program Manager for launching, arranging, and switching programs.

    Program Manager and File Manager windows float over a series of icons on the desktop

    File Manager was the most important new program in Windows 3, used for managing files and drives. This upgrade bet big for the first time on most users having a mouse, and knowing how to use it to click on the colorful, large (for the time) 32x32 icons. Many reviews were critical of the release because to use it effectively required one of those oft-criticized mice.

    It is worth noting in the screenshot above that File Manager is being used to browse the files in the OS itself—something that was commonplace at the time, but now the modern equivalent of looking under the hood to repair an electronic fuel-injected car.
    You could not put links to programs or files on the “desktop” in Windows 3. The area behind the floating windows was where programs went when you minimized them. Because getting to these minimized apps often required moving a bunch of windows out of the way first, the Alt+Tab keyboard shortcut became a very popular way to switch between running programs.

    Windows 95

    Windows 95, released a few years later in August of 1995, included a substantially reinvented user experience. Many of the constructs that are still present in Windows 7 were introduced in this version—the Start menu, taskbar, Explorer, and the desktop—but in very different forms.

    Windows Explorer open on the desktop, Start menu shows programs in a flyout menu.

    Although we think about these user interface elements as familiar today, at the time, they were radically different from how anyone had used a PC before. The Start button was so undiscoverable that, despite having the word Start right on it, bouncing “<-- Click here to begin” text had to be added to the taskbar after early test releases so that people could figure out how to get started using the programs on their PC.

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    Of course, once people figured out the “trick” of the Start button, it stuck with them, and then they were good to use it forever more. And of course, we were able to remove the “Click here to begin” text from subsequent versions.

    At the time, PCs were still rather mysterious and the vast majority of homes were yet to have their first PC. Actions that we take for granted today, such as double-clicking and right-clicking, were to many users unknown—yet used extensively in the Windows 95 user interface. These actions proved problematic for many people to discover and master. Here is an historic video of a person in our usability labs trying an early build of Windows 95 which shows an example of the kind of problems many people had:

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    The Windows 95 user interface, designed in 1993, was forward-looking, and drastically simplified the common tasks of the time. Yet, a vocal subset of users continued to criticize it for years, preferring instead the comfort of what they were familiar with: Windows 3.1. Ed Bott from ZDNet dug up some humorous posts highlighting the frustration some users were having making the transition to Windows 95.

    So, while the building blocks of today’s familiar Windows experience were designed in 1993, the world of 2012 is very different. In 1993, the web was still new to everyone, and most Windows 95 users had not tried it yet. The included media player could only play .wav files. Online connectivity was not commonplace, and if it was present at all, it was usually through a service such as AOL, which used a modem to connect to proprietary content and a closed intra-service messaging system.

    Windows 95 prominently featured a fax service and a terminal client/phone dialer. It did not include any support for commonplace devices such as digital cameras or portable mp3 players, since neither even existed as a consumer device in 1993. The first ever mobile phone with PDA capabilities, the IBM Simon, was introduced around this time. It weighed almost 1.5 pounds, ran DOS, and the only app ever designed for it sold only two copies. This was a very, very different world than the one we live in today.

    And yet, the Windows 95 UI was designed in and for this world; the Start menu, the taskbar, the desktop, Explorer, and all of the rest of today’s familiar Windows UI was born in this time. A world in which you spent most of your time disconnected… typing in a word processor and manipulating files on your computer. A world in which the idea of not starting Windows by typing “win” at the DOS prompt seemed strange and almost unreal (and even the subject of many debates.)

    From this distant time in the past, today’s familiar Windows user interface was born.

    Windows XP

    Windows XP was released to PC manufacturers on August 24, 2001. It represented another important evolution in the Windows user interface.

    My Documents window and Windows Media Player window float over a desktop background image of a green hillside and blue sky. Start button appears at lower left.

    By 2001, people were using their PCs more every day. Typing and managing files, which doesn’t require the web, remained a critical percentage of the time people spent using a PC. Yet collecting and consuming information and media—especially music, photos, and videos—was on the verge of becoming mainstream. (Even then, early digital camera sales were still just one quarter of film camera sales, and would not eclipse them for another three years.) People were spending more time on the PC web browsing and doing mail, in addition to the document-focused productivity scenarios around which Windows 95 was developed.

    Although you still invoked the Windows XP Start menu by clicking the word Start in the lower-left corner, the Start menu itself changed considerably. The familiar hierarchical programs list from all versions of Windows since 95, rooted in the old Program Manager, was demoted under an “All Programs” link. Mail, web browsing, pictures, and music were brought to the top level.

    Start menu shows a list of frequently used programs on left, with All Programs at bottom of that list. On right is list of My Documents, My Pictures, Control Panel, Help and Support, and other frequently needed shortcuts.

    Although Windows XP eventually became a major success, some people at the time were frustrated with the changes to the user interface. They found the Windows XP experience to be garish, and users inquired about how to “downgrade” to previous versions.

    Windows Vista

    In 2006, Windows Vista substantially changed the visual appearance of Windows, introducing the Aero visual style. Aero gave the appearance of highly-rendered glass, light sources, reflections, and other graphically complex textures in the title bars, taskbar, and other system surfaces. These stylistic elements represented the design sensibilities of the time, reflecting the capabilities of the brand-new digital tools used to create and render them. This style of simulating faux-realistic materials (such as glass or aluminum) on the screen looks dated and cheesy now, but at the time, it was very much en vogue.

    Image of Analog Clock gadget on desktop, with a window overlaying it with semi-transparent edges.

    Aero was designed to help people focus less on the window chrome itself, and more on the content within the window. It draws the eye away from the title bar and window frames, and towards what is valuable and what an app is about.

    And of course, the Start menu changed again, most notably by making it possible to press the Windows key (introduced in Windows 95) and then just start typing to search from anywhere in Windows. (This welcome innovation is one we’ve kept in Windows 8, expanding it to search even within apps.)

    Of course, as with every change along the way, some people expressed reservations about the changes.

    Windows 7

    Windows 7 was released in the fall of 2009, and a number of the key aspects of the UI were significantly transformed. While many of these changes centered on an overhaul of the taskbar, significant modifications were also made to the Start menu, windowing, and to the logical organization of files on the PC.

    Start button, with IE, Windows Explorer, and Windows Media Player on Taskbar. 3 instances of IE shown above taskbar (activated on hover)

    Notably, launching and switching between programs were brought together in the new taskbar. Icons in the taskbar were made bigger and more touchable. The Start menu was changed to focus on launching only the programs you use less frequently, as no program can be pinned to both the taskbar and the Start menu. This marked the start of a transition where we were looking to remove the archaic distinction between starting a program for the first time and returning to a program that was already running. It is interesting to consider how odd it is that we trained ourselves to look one place for a program the first time it is running, and a different place once it is already running.

    Windows 7 also was the first mainstream non-phone OS to introduce multitouch support into the base OS. Although tablets on other platforms have followed suit, Windows 7 was the first shipping OS to embrace multitouch in the platform. Along the way, we learned a great deal about the limitations of trying to use touch to navigate Windows when so much of the existing interface, and virtually all of the existing programs, were specifically designed to be used with mouse and keyboard.

    Although some people had critical reactions and demanded changes to the user interface, Windows 7 quickly became the most-used OS in the world.

    Trends that influenced the design of Windows 8

    As we started planning the user experience of Windows 8 in mid-2009, just around the time of Windows 7 RTM, we looked around and took note of some of the trends playing out around us.

    This was a pre-iPad world, a world before the recent proliferation of new form factors and device types. And although more than 93% of PCs run some version of Windows today, it was clear even then that the world we lived in and people’s expectations of computing devices were rapidly changing.

    Here are a few of the trends we noted that influenced the design of the Windows 8 user experience and features:

    1. Connected all the time.

    Connectivity is becoming ubiquitous. While today’s file-centric Windows user interface was designed around assumptions of optional, limited, and sporadic connectivity, today, nearly everything people love to do on their PCs assumes they’re connected to the Internet. Wi-Fi is assumed in more and more public locations, and an increasing number of PCs also include the ability to connect to mobile broadband networks as well. Where connectivity was once the exception, it is now the rule.

    2. People, not files, are the center of activity.

    There has been a marked change in the kinds of activities people spend time doing on the PC. In balance to “traditional” PC activities such as writing and creating, people are increasingly reading and socializing, keeping up with people and their pictures and their thoughts, and communicating with them in short, frequent bursts. Life online is moving faster and faster, and people are progressively using their PCs to keep up with and participate in that. And much of this activity and excitement is happening inside the web browser, in experiences built using HTML and other web technologies.

    3. The rise of mobile PCs over desktop PCs.

    The kinds of PCs people are buying are rapidly moving towards mobile form factors like laptops and tablets, and away from traditional desktops. While powerful desktops will remain the form factor of choice for people who want to squeeze every ounce of performance out of a highly modular and extensible PC (for example video editors, financial analysts, scientists, gamers, PC enthusiasts…), most people want to have light, portable PCs.

    In 2009, desktops were 44% of the worldwide market and laptops were 56%. Just 3 years later, over 61% of the PCs sold are laptops and the trend is accelerating—this is globally, measuring all Windows PCs sold. Among consumers in the United States buying a PC this year, more than 76% will purchase laptops—the absolute number of all US desktops sold will be fewer than the number of tablets in 2012! That is a fairly stunning change in the role of different form factors. Even in businesses, laptops are now purchased more than half the time.

    Videos of the recent Windows 8 Consumer Preview event we hosted in Barcelona in February were shot, produced, edited, and controlled using only laptops. Many of these were very powerful laptops with secondary monitors plugged in for extra screen space, but even a few years ago we would have hauled around a truckload of desktop PCs for the event. Just because a PC is portable, light, and thin does not mean that it lacks the power or capability to do heavy-duty professional work.

    4. Content is on the PC and in the cloud.

    Following from ubiquitous connectivity and the popularity of laptops is the fact that people’s content now spans the PC and cloud services. This includes not just purpose-built storage services like SkyDrive, but also photos in Facebook and Flickr, videos put up for family to watch in Vimeo, music stored in and streamed from cloud services. All of this is augmented by GBs, or in some cases even TBs, of videos, photos, and music on the PCs in the home. People’s content is spreading out everywhere, and as cameras are now high-resolution and always in your pocket (via your phone), the amount of content being generated every day is multiplying rapidly. A service like SkyDrive providing up to 100GB of cloud storage dramatically changes how you think about your PC and the resources you have access to.

    These are a few of the key things we took note of in 2009. What all of these trends have in common is that people had started to use their PCs with different expectations and scenarios in mind. Although the PC remains the world’s best tool for writing and typing and creating and making things, people increasingly were doing different kinds of things with the time they spent on their PCs. And they had started to expect PCs to behave more like their phones: connected, mobile, long battery life, centered on people and activities and keeping up with what’s going on.

    At the same time, apps have continued to get richer on mobile devices, as developers have had more time and experience developing apps. Along the way, mobile platforms continue to add APIs and functionalities that already exist in Windows.

    We realized that to enable Windows to lead with these trends emerging, we needed to reimagine the Windows experience. Like so many other times in our history, we needed to bring the Windows experience forward: not only to better service what people are doing today, but to anticipate and cultivate the ways they will be using PCs in the future; to modernize the experience of using Windows, and to set the stage for the next decade of platform and developer innovation; to make the PC the most desirable, useful, and loved device in the world.

    Windows 8 looks forward towards a new world of capabilities, new hardware, new apps, and new scenarios. Windows 8 is about a billion people doing new things, and the next billion people experiencing Windows for the first time.

    Goals of the Windows 8 user experience

    As we designed this new experience, a few clear goals emerged for the characteristics of what we wanted to create.

    1. Fast and fluid.

    Those of you who have followed Windows 8 coverage over the last year have undoubtedly read or heard the phrase “fast and fluid.” This is not some "marketing" tagline we have recently created; these words are part of the design language we used to define what we intended as the soul of the new user experience in Windows 8. If Windows 8 were to be embodied in a phrase, this is it, and our goal is for this description to fit the product.

    Fast and fluid represents a few core things to us. It means that the UI is responsive, performant, beautiful, and animated. That every piece of UI comes in from somewhere and goes somewhere when it exits the screen. It means that the most essential scenarios are efficient, and can be accomplished without extra questions or prompts. It means that things you don’t need are out of the way.

    It also implies to us a certain feeling of fluidity or weightlessness in using Windows. For instance, swiping from the edge of the screen with your finger to bring up controls feels fluid and natural and pleasing. The human finger is designed for that kind of motion! For example, dragging down from the top of the screen to close an app, or dragging a tile to the bottom of the screen to invoke zoom and then moving it to a distant part of the Start screen feels satisfying to do, in addition to being efficient.

    2. Long battery life.

    Because most Windows PCs are now battery powered (and soon the vast majority will be), great battery life is just a requirement. When the original Windows programming model was created, literally every PC was plugged in all the time. There was no concept of power management or battery drain. As a result, programs were free to do whatever they wanted. Once running, they ran constantly, regardless of whether you were interacting with them or not. Programs could consume all the memory on the system, or all the CPU, or write to disk every second. Basically they could, in a totally unbridled way, chew through your battery.

    Traditionally, the design of PC software was centered on using the CPU as much as possible, whenever possible, because “MIPS are cheap.” In contrast, now we heavily scrutinize usage of the CPU, and understand the role it plays in preserving or reducing battery life. In a mobile world, this is a new type of engineering tradeoff. Where Microsoft used to primarily focus on reducing memory consumption, now we are also laser-focused on improving battery life while still delivering a fast and fluid user experience. That means optimizing for memory consumption and CPU and GPU and performance and battery characteristics all at the same time, across a variety of platforms and hardware configurations. Therein lie the real engineering tradeoffs inherent in building a mobile OS, or just a modern OS that happens to be used on a mobile device.

    Once we understood how important great battery life was, certain aspects of the new experience became clear. For instance, it became obvious early on in the planning process that to truly reimagine the Windows experience we would need to reimagine apps as well. Thus, WinRT and a new kind of app were born.
    To help extend a device’s battery life, WinRT-based apps know how to save their state instantly. Windows can throttle them down to use no CPU or memory on a moment’s notice, but without the user losing anything they’ve been working on in the app. When the app resumes, it resumes in exactly the same place it left off. To the user, it has been running all the time—but technically the program has been suspended or terminated in the background.

    There’s a reason phones and tablets generally show only one app on the screen at a time. It is not just because of the traditionally small screens on these devices, or because doing one social update is all people do, or because "toy apps take up the whole screen." It is because "one-at-a-time" lets an OS manage the background activity on the device so that only apps you are actively using can drain the battery.

    Even with multitasking in the existing desktop still present (and improved), we did feel like only offering "one-at-a-time" in the Metro style experience was a bit of a constraint, and not totally true to the Windows history of multitasking. So we evolved Snap for Windows 8.This feature lets you run any two WinRT-based apps side-by-side, so that you can watch a video while you browse the web, or video chat while checking mail. And we created facilities for background processing of a wide class of apps, and background notification capabilities that are unique to Windows as well.

    In the below picture, you can see the Windows 8 Messaging app snapped next to the Maps app—two apps at once, even on a tablet.

    Map of Bellevue, WA, showing location of Microsoft Corp, fills 3/4 of screen, a messaging conversation if on right 1/4 of screen

    3. Grace and power: Windows 8 apps.

    Windows 8 apps are so much more than just optimizing for battery life though. These apps are beautiful and immersive, using every pixel of the screen to display their content. For years, each release of Windows added more and more chrome around the edges of your screen and windows—buttons and widgets and gadgets. Windows 8 reverses this trend, with Windows itself receding into the background, and putting the content of your apps ahead of the chrome.

    Every app has a rich canvas with which to express its soul—when you’re using a news app, you’re fully immersed in news. When you’re checking your social networks, content is presented beautifully and artfully and in ways that draw you in to spend more time enjoying yourself. When you play a game, you’re fully and completely immersed in the game. (Although, some types of games have been doing full-screen for years!)

    And over time, as apps evolve, when you’re editing photos, writing a document, managing your finances, or any other professional productivity task, you’ll also be immersed in that. Of course, if you use popular professional tools today, you can see how they are on a path to being full-screen and immersive already. Our unique app constructs such as contracts, pickers, and many other cross-app capabilities (all accessible globally via the charms) are about new ways to connect apps together, and are relevant for anything from intense data transfer between apps to sharing a quick link via email. These cross-app capabilities (and more importantly the APIs) are a unique element of Windows 8.

    Windows 8 apps are purpose-built and tailored for the specific set of scenarios they are great at. This is different than traditional desktop programs, which often contain hundreds of loosely-related, powerful, but hard-to-find features. Windows 8 apps focus on being great at something, or a few things, and really delivering a great experience for those targeted scenarios.

    The history of development tools and system management tools shows that this approach of “little languages” (or "tiny tools") vs. monolithic apps maps better to a world in which obtaining and using apps is easier. The rich capabilities of the Windows Store, contracts, and the searchable Start screen all were designed so that it is easy for people to have, find, and use many apps in Windows 8.

    Even though apps express their individual personality and brand and content, they still do so within the harmony of the overall "Metro style" design experience. Great Windows 8 apps align to a common typographic grid so that the PC feels fluid and harmonious as you switch between apps. We created standardized ways of doing common tasks: with touch, you swipe in from the edges to reveal commands. With a mouse, you move to the corners. The lower-left corner of the screen takes you to Start, no matter where you are. Right-click always reveals off-screen commands for the app you’re using. Within apps, Settings and Search and Share are always in the same location (the charms), no matter what app you are using. There is real value to having the consistent aspects of apps always work the same way. Yes, you do have to learn a few simple things up front, but once you know them, you know how to use the entire system.

    WinRT apps scale gracefully from small 7” screens to large desktop monitors, to even larger wall-sized TV screens. Check out the Maps app in Windows 8 being used on an 82” touchscreen during the Consumer Preview launch event in Barcelona! (Or, watch the video, starting approximately at 1:13:00.)

    Michael Angiulo and Steven Sinofsky demonstrate using a map on an 82-inch touchscreen running Windows 8

    These apps were designed from the beginning to allow developers to target devices with extremely high-density displays. They are designed to work well no matter what input method you choose to use them with—mouse, keyboard, touch, or pen. WinRT apps are designed for the future, and for all of the ways that hardware devices and people’s expectations are evolving.

    Because all WinRT apps come from the Windows Store, you can find and install them with confidence. The apps run in a local sandbox called AppContainer, so they can’t mess with or corrupt your PC. And they always uninstall cleanly, without a trace left behind.

    4. Live tiles make it personal.

    The heart of a new Windows 8 app is its tile. We know that people are increasingly snacking on snippets of live information. Who wrote on my timeline? Did I get any new email? Did anyone post pictures of yesterday’s party? Did anything big happen in the news? Who’s winning the game? Is my expense report approved? Did someone beat my high score? Is it my turn? When is my next meeting? Is a new book by my favorite author available for preorder? Is our inventory running low? What’s the traffic like?

    Today, this is increasingly how we see many people use their devices, obsessively switching between different websites and programs on their PC and apps on their phone, checking to see if there’s anything new to see or do.

    Tiles are designed so that you can see all of this information together in one place, with a single click, tap, or keypress from anywhere in Windows, without even opening your apps. It takes a bit of imagination right now in the Consumer Preview to fully visualize how this might work, because only a very small number of apps are currently available, and for many of these, developers are still working on building great tiles.

    This is also an area where we are bringing together a set of disparate concepts and more strongly connecting them to the apps you actually use. Today, we are all familiar with a row of icons in the Notification Area near the clock, beckoning for our attention (each one using different interfaces, with different methods of control to silence them). These are separate processes running silently (and perhaps secretly) in the background, waiting to update us at inopportune times, and otherwise using system resources like battery power. Gadgets, introduced in Windows Vista, held the promise of providing a more connected UI surface, but failed to relate to the apps and services we care the most about.

    But as we move closer to general availability of Windows 8 and beyond, to a time when all of your favorite apps are available and represented by tiles, suddenly your Start screen will become a personalized dashboard of everything you care about. Your whole computing experience has the potential to be encapsulated in one view. A view that you organize and control.

    Start screen with 16 live tiles

    Even content from within apps can be pinned to Start: people, mail folders, accounts, websites, books, albums, singers, movies, clients, sports teams, cities, etc. Everything you care about is efficiently available and up-to-date at all times. Tiles are the future and fit the way people look for fresh content in apps and websites. Just as yesterday's static highway signs telling you what you already know are being replaced by active and customizable message boards with road conditions, traffic alerts, and flexible lane usage, your PC should convey information that is current and up-to-date. Icons are yesterday’s way of representing apps.

    5. Apps work together to save you time.

    I mentioned before that we have observed that people are increasingly spreading their time and content across an ever-wider cross-section of websites, cloud services, and apps. The result of this is that your stuff is strewn everywhere! Some stuff is stored on your primary PC. Other things are trapped inside apps or cloud services that you can only get to from within those apps or websites.

    This leads to many common tasks being more complicated to complete than when, in the past, everything would be saved locally to your PC.

    For instance, let’s say that you are in a Skype call and you want to send a picture from a show you were at last weekend. Assume you took the picture with your phone and posted it to Yammer.

    To do this today, typically, you would open your web browser, log in to Yammer, go to your main page, click on Images, find the photo and click it to select it, right-click it and choose Save As, put it somewhere on the hard drive, then switch back to Skype, choose “Attach”, navigate to wherever you put the photo on your hard drive (hope you remember!) and then click it again to attach it. That task took at least eight steps to complete. And now you have two copies of the photo: one on Yammer, and a duplicate somewhere on your PC. It takes expertise and time to find that duplicate file, move it around, or ultimately delete it. What was once a simple photo sharing scenario has become laden with “file management” tasks.

    There is a better way, and it is part of what makes Windows 8 apps so powerful. Windows enables any Windows 8 app on the PC to share data with any other Windows 8 app, even if those apps know nothing about one another.

    Think about the scenario above again, except this time using Windows 8 apps for Skype and Yammer. From Skype, you click “Attach” and a picker with all of your local photos appears. But because you’ve installed a Yammer app, you can also instantly switch to pick between photos on Yammer. You click the photo that you want, and it is now attached in Skype. Done! That’s only three steps—five fewer than the way it works today.

    Although other OSs have attempted to streamline such tasks by hard-coding one or two currently popular services, Windows 8 is more useful, flexible, and future-proof. Our way is not limited to only a small set of specific, known services that are “baked into” the OS.

    Any new Windows 8 app can pick from, share with, or save to any other installed app (and of course to the set of services that the app knows how to connect to.) It is a reinvention of how apps work in an OS, with Windows providing the “glue” that binds apps together. Getting to your stuff, in any service, anywhere in the cloud, is just as easy as getting to that data on your local PC or home network—as long as the service builds a Windows 8 app. And with a reach of over a billion Windows users worldwide, we expect most services will see the value in creating an app for Windows 8.

    6. Roam your experience between PCs.

    Just like the experience of using most websites, you can sign in to your Windows 8 PC using an online account. The account used to sign in to Windows is called a Microsoft account. It can be an existing Windows Live ID (the email address you use for Xbox Live, Hotmail, and most other Microsoft services), or one can be created using any email address you own.

    Once you are signed in, something magical happens—as you personalize and customize your Windows experience, the changes roam to any other PC.

    Have a lock screen picture or desktop wallpaper you love? It’s there on every Windows 8 PC you sign in to. Configure your settings, colors, and pinned websites just the way you like them? They move with you. Play the first ten levels of a game? You don’t have to replay them again on your other PCs. Your saved passwords and favorites and language settings are all just there, whenever you sign in.

    After you invest deeply in personalizing Windows, we don’t want to you to have to redo those steps on every PC you use. Just like if you changed a setting on your favorite website while signed in, you would expect that setting to persist no matter what device you signed in from. We want that same experience in Windows 8. And because roaming is part of the WinRT platform, any app developer can roam the settings for their app just as easily as Windows roams system settings. Roaming is not just for a single app or browser, but part of a platform that every app can easily use and everyone benefits from.

    7. Make your PC work like a device, not a computer.

    Today most people love their PCs, but it is clear that people’s attitudes and expectations are changing for just about any device they carry around with them. People really want a product that just works. They want to sit on the couch and enjoy their favorite apps and games and websites and not worry about the vagaries of the registry or a million control panels or power profiles. They want to pick it up, enjoy using it, and then set it down.

    In contrast, today’s Windows is almost absurdly configurable. Even the most obscure features are often tweakable through a sometimes impenetrable labyrinth of control panels, group policies, special command-line utilities, undocumented registry keys, etc. Most of these settings are changeable not only by the user, but by any program that happens to be running on the PC that decides to “tweak” something. Much of what has been pejoratively called winrot over the years is due to overzealous downloaded programs overstepping their bounds and installing system services and updaters and background tasks and all sorts of things that slow down the system.

    We recognize that in the proper hands, or in the hands of someone who is willing to tolerate the downsides, these are not features to be critical of, but assets of Windows. Our intention is not to lock down Windows, but to provide a platform that meets consumer expectations for how a device should work. These assets are far too easily abused or accidently misused—there is a better way.

    Our goal in Windows 8 is to redefine people’s expectations of their PC. The most commonly used settings (those similar to the ones exposed on most phones or tablets today) are available within the new UI. New Windows 8 apps cannot alter system settings for the most part (with the exception of a few specifically architected capabilities, such as enabling location services or using the webcam, which require user consent.)

    Windows updates are applied silently in the background and in the middle-of-the-night “maintenance window” whenever possible. Because Windows 8 apps know how to preserve their state, this is totally seamless to you.

    On SoC-based devices, you touch the power button to turn the screen off, and behind the scenes, your PC is immediately moved into a low-power mode. Press it again, and the device instantly wakes up. Windows 8 turns the PC into a device that delivers the kind of experience people expect out of a modern mobile device.

    Now if you are an expert who really craves all of the traditional flexibility and customizability of all of the knobs and levers in the system, you can still access them just as easily as you could in Windows 7. These settings are still there, and they still work. The Control Panel and gpedit.msc and PowerShell and all of the other places you do expert customization of your PC are still there for you. People who don’t have the knowledge to use these advanced settings effectively can just enjoy their devices. And for those who do want that power, it is there for them.

    Although these seven goals were certainly not the only aspirations we had when designing what became the Windows 8 user interface, they give you some idea of the relationship between the trends we observed and anticipated, and how these observations directly mapped to the goals of the new UI.

    Touch as a first-class input method (but not the only one!)

    Windows has continually innovated to adapt to and enable new ways of working with the PC.

    The earliest versions of Windows were designed to be used with a keyboard. Windows helped transition mainstream users to the mouse by bundling a mouse with the first version of Microsoft Word, over 25 years ago! This transition took quite a while, as many users were initially very skeptical of the mouse. “Real users only use the keyboard!” (Some might still say this. The good news is, we have you covered.) Of course now, all these years later, it is hard to imagine using a PC without a pointing device.

    In 2001, Microsoft announced Tablet PC, an “experiment” with a new kind of PC form factor, powered by the pen. We developed the best handwriting recognition in the market for certain languages. We pioneered ways to integrate natural “ink” and drawing into traditional programs like Microsoft Office. We experimented for the first time with slate PCs that had no keyboard. While the technology was not ready ten years ago to build light enough and quiet enough PCs with enough battery life to make this form factor widely compelling, clearly Tablet PC got a lot right in terms of predicting aspects of future computing.

    So Windows originally had keyboard support, then added an assumption of mouse, then added the ability to use a pen. At each step of the way, these input devices were integrated into the core Windows UI without forgetting about or degrading the experience of the existing input methods.

    Of course, some things had to change about how the user interface worked as each new input method was added (like, once you bet on a 2D grid of icons such as Program Manager did in Windows 3, keyboarding around with the arrows to launch an app becomes more cumbersome vs. traversing a simple list.) But it is fair to say that as of Windows Vista, mouse and keyboard were first-class input methods, with pen as a well-supported but secondary way of interacting with the PC.

    Which brings us to the current day. In Windows 7, we introduced multitouch support into the base OS. Touch is an incredibly important long-term bet for us. For an increasingly large number of people over time, it will be the primary way they interact with Windows. And for the vast majority of users, it will eventually be used alongside mouse and keyboard to complete their experience.

    In 2009 when we started planning Windows 8, touch was often ridiculed on phones—the rumors of an iPhone with a keyboard were prevalent and often hopeful. It is almost quaint to look back at the speculation from many wishing and hoping for an iPhone with a slide-out keyboard.

    Today, you would be hard pressed to find many people who still dream of a phone with a physical keyboard, though in a diverse world with diverse needs, even a small percentage of people represents a large absolute number.

    Tablets, of course, don’t come with physical keyboards. But something is different about tablets—people still do desire a physical keyboard. We've all seen countless peripherals spring up that provide a keyboard for a tablet as a case or other accessory. Why is that? We see time and time again that it is because people want to use a tablet in place of their PC, and adding a keyboard is the best way to get more work done.

    Even in the absence of software like Microsoft Office, the reality is that when you need to write more than a few quick lines of text, you yearn for something better than on-screen typing. Touch typing rates on glass are at best half that of a physical keyboard (and frequently much less), and so the extra time, energy, and thought needed to get the work done is a real issue.

    Just as there were always people who could type large amounts of text with T9, there are people who swear by multitouch typing as more than good enough for their work. Looking broadly, however, people benefit from the highly accurate, reliable, and fast user input enabled by a physical keyboard, and we think an OS and its apps should not compromise when one is available.

    Beyond phones, touch has become the single most pervasive user model for a vast array of interactions—many of those powered under the hood by Windows PCs! From cash registers, to ATMs, movie rental kiosks, airline check-in, and grocery checkout, touch is literally everywhere. How would you explain to a 5-year-old that when she touches a laptop screen, nothing is supposed to happen?

    To think that your PC would remain the single computing device you do not touch seems illogical. It is reminiscent of historic debates over the use of color back when PC displays were generally monochromatic; despite color being everywhere around us, many people believed color would be a distraction to work and should be reserved for play. (The Office team actually had a significant debate about the use of color icons in the first version that introduced toolbars.)

    In a decade (or probably less,) we will look back at this transition period and say to each another “Hey, do you remember how PC screens didn’t used to be touchable? Wow, isn’t that weird to think about now?”

    Designing for a successful touch experience

    Some bloggers have written about how Microsoft invested in developing touch in Windows 7, but ultimately had a poor approach, as evidenced by the touch experience of both phones and tablets surpassing that of Windows-based devices. Going back to even the first public demonstrations of Windows 7, we worked hard on touch, but our approach to implementing touch as just an adjunct to existing Windows desktop software didn’t work very well. Adding touch on top of UI paradigms designed for mouse and keyboard held the experience back.

    We took a step back and substantially changed both our approach and our implementation of touch for Windows 8.

    Our approach to embracing touch in Windows 8 involved two parts:

    1. Improving touch on the desktop.

    We knew we needed to improve touch in the existing desktop using the feedback we received from touch users in Windows 7. We created larger touch targets, spread out controls a bit more, and added fuzzy targeting logic to make it easy to grab common controls such as resizable window borders.

    We resisted the temptation to make people choose between using mouse + keyboard OR touch. So many elements of desktop apps just assume people are using both a mouse and a keyboard, and no number of improvements we make to the touch experience on the desktop can fix what has been assumed and designed into these existing app interfaces. (After all, these programs have already been released to the market, in many cases a decade or more ago!)

    However, we do believe that touch is a useful adjunct to mouse and keyboard on the desktop. Historically, a new input method is seamlessly integrated as people learn the best use for it. Context menus, keyboard shortcuts, toolbars, and menus are all different ways of doing the same thing, yet everyone makes their own choice about what works best for them.

    Touch will evolve the same way. Having used a touch-enabled laptop every day for the last year (a Lenovo x220 tablet), I have a hard time imagining not being able to touch the screen for scrolling, or to tap the OK or Cancel buttons in a dialog box. Whenever I use a non-touch laptop, it is as if I’ve forgotten how to use the PC. Of course touch is not the primary way I use this laptop, but it is a crucial piece of how I interact with it. Even on the large-screen monitor I use at work, I just instinctively touch it—I don’t think “because this screen is attached to a desktop PC, I must not be able to touch it.”

    2. Creating an environment exclusively or primarily suited for touch input.

    Within the new UI and WinRT apps, touch is promoted to an equal citizen alongside mouse and keyboard. Just like you can use a PC with mouse and keyboard only (or just keyboard,) you can also have a great experience using the UI with just touch. In other words, we aspired to design a user experience that is new, worked for touch-only devices as a first and only input method, and when a mouse and keyboard are added, these can be used exclusively or with touch. Keyboard shortcuts are there alongside gestures—you pick based on your preference and the capabilities of your PC.

    Many have opined that touch can have no role in certain form factors—we’re all familiar with those quick to make comments about gorilla arms, fingerprints, poking at a screen, and so on. Many comments with this same tone were at the foundation of initial negative reaction to the mouse—“it makes me move my hand from the home row on the keyboard,” “I get sore wrists,” “it takes my focus off of my work while looking up at the screen,” etc.

    While the ergonomics of a tablet placed in a dock with a keyboard is similar to that of a touch laptop, there is no doubt that touch is new and different in a laptop and desktop. But when you consider that we do not think it has to be used exclusively, it starts to look only like a benefit when it is there. (And our design does not assume it is always there—although we think you will learn to miss it when it is not.)

    We designed Windows 8 to take into account the desire to have a PC that works the way you do—whether you want a laptop with a permanent keyboard, a tablet with a keyboard you can attach (wired or wireless), or something in the middle. Touch works across all of these form factors, and you choose which input method to use when. This is what we mean when we say Windows 8 provides a no-compromise experience.

    Metro style and the desktop: working together

    Most of this post thus far has discussed some of the ways we designed Windows 8 in response to the trends we observed: the popularity of laptops and tablets, and the corollary expectation of excellent battery life; a focus on people and activity as the center of attention more than just files and documents; the ubiquity of cloud services; and the upcoming universal prevalence of touch on every PC.

    So what is the role of the desktop in Windows 8?

    It is pretty straightforward. The desktop is there to run the millions of existing, powerful, familiar Windows programs that are designed for mouse and keyboard. Office. Visual Studio. Adobe Photoshop. AutoCAD. Lightroom. This software is widely-used, feature-rich, and powers the bulk of the work people do on the PC today. Bringing it forward (along with the metaphors such as manual discrete window sizing and overlapping placement) is a huge benefit when compared to tablets without these features or programs. It is an explicit design goal of Windows 8 to bring this software forward, run it better than in any previous version of Windows, and to provide the best environment possible for these products as they evolve into the future as well.

    We see our approach validated time and time again. On one hand, the makers of tablets and phones are in a race to add “PC capabilities” to their devices: support for peripherals like printing, remote access, high-resolution screens, or classes of new APIs for developers that already exist in Windows. At the same time, we also see consumers demanding features in these platforms that have existed for years in Windows—from things as mundane as full support for the keyboard and mouse, to things as complex as support for multiple monitors, background processing, or third-party accessibility tools.

    On other tablet platforms, there has been significant customer interest in apps to bring the Windows desktop, running software like Office, to touch devices. These solutions use over-the-network remoting technologies to send pictures of the screen and touch input back and forth between the tablet and a real Windows PC. Of course, because these tablet devices don’t natively support Windows software or a mouse, and because they require uninterrupted network connectivity, the experience is suboptimal—subject to frustrating lag, pixilation, and disconnections from the host PC.

    We do not view the desktop as a mode, legacy or otherwise—it is simply a paradigm for working that suits some people and specific apps. This is very much like the person who uses a mobile “phone” but really uses it for the mobile browser and mail client and rarely uses apps or the phone. It is like the person who has a brand new tablet but only uses the web browser.

    The desktop is a great way to work with mouse/keyboard and a large monitor or several monitors. It is a powerful and flexible paradigm, allowing for pervasive control over the size and layout of windows on the screen.

    If you only want to “live in the desktop,” if you never plan on using a PC with touch or using any apps from the Windows Store whatsoever, Windows 8 still has a lot to offer. The Windows 7 desktop experience has been brought forward and significantly improved, with additions such as the new Task Manager, new Explorer and file copy UI, Hyper-V on the client, multi-monitor taskbar and wallpaper, etc. And all in a package that uses fewer system resources than Windows 7. The new Start screen is simply a continuation of the Windows 7 trend of unifying disparate elements of the user interface—starting, launching, switching, and notifications.

    It is really your choice. You can use only desktop apps if you want. You can use only new apps and never leave them if you want (in which case all of the desktop code is not even loaded.) Or, you can choose to mix and match apps that run in both environments. We think in a short time everyone will mix and match, simply because there is so much creative development energy being put into the new scenarios made possible by new Windows 8 apps.

    Two devices, not three

    Imagine a tablet. Light and thin. Amazing battery life. Gorgeous screen. You can lounge on the couch enjoying a beautiful, fluid experience, doing the things you love to do on a tablet: playing games, socializing, browsing the web, reading, touching up photos, watching TV. You are just immersed in your experience, doing the things you love to do. You hand it to your daughter and she knows exactly how to use it.

    But then, if you want to have a bit more control and efficiency, you can set this same tablet in a stand and attach a keyboard, or just flip a keyboard around, and suddenly you have a complete Windows desktop experience, with full Microsoft Office, multiple monitors, peripherals, and a mouse.

    Or, imagine a featherweight laptop with a beautiful large screen and a great keyboard. But in addition to doing everything you use your laptop for today, you can also use your favorite new apps built for today’s tablets.

    Windows 8 imagines the convergence of two kinds of devices: a laptop and a tablet. Instead of carrying around three devices (a phone, a tablet, and a laptop) you carry around just a phone and a Windows PC. A PC that is the best tablet or laptop you have ever used, but with the capabilities of the familiar Windows desktop if you need it. You may choose to carry a tablet, or you may choose a laptop/convertible, but you do not need to carry around both along with your phone. You never think about a choice, or fret over your choice of what to carry. Things just work without compromise.

    Great hardware like this doesn’t quite exist yet, but it will be commonly available later this year. This is the promise of the Windows 8 experience. With a little imagination, you can start to see why this kind of device will change the way you think of a PC.

    Updating the visual appearance of the desktop

    Several bloggers have wondered about how much we would be changing the visual appearance of the desktop in Windows 8.

    We have appreciated seeing people on various sites post screenshots of their proposed designs for “Metro-izing” the visual appearance of the desktop. It is exciting to see the interest and passion that goes into designing them!

    We spent a lot of energy carefully considering how substantially to update the appearance of the desktop in Windows 8. We looked at many, many pictures, and considered hundreds of designs. Our primary goal was to bring visual harmony to Windows, while still preserving much of the familiar feel of the Windows 7 desktop and not sacrificing the compatibility of existing apps.

    In the end, we decided to bring the desktop closer to the Metro aesthetic, while preserving the compatibility afforded by not changing the size of window chrome, controls, or system UI. We have moved beyond Aero Glass—flattening surfaces, removing reflections, and scaling back distracting gradients.

    A couple of the considerations we thought through:

    • While much of the Metro style UI uses white text on a colorful saturated background, the desktop in Windows 8 will continue to use black text on light-colored chrome, as in Windows 7. This choice was made to help preserve maximum compatibility with existing programs.
      Since the release of Windows Vista (which introduced Aero Glass), many desktop programs have integrated with glass, making assumptions that they should custom draw dark text with a cloudy “blur” texture behind it to make their text readable.
      Some of you may remember the substantial compatibility problems that arose when the system colors changed from light on dark (Windows XP) to dark on light (Windows Vista.) It took many years for these to be fully sorted out. We would prefer not to reintroduce these compatibility issues again in the other direction. So, “color matching” the new design on the desktop is not entirely feasible.

    • But at the same time, we want desktop windows to continue to feel light and airy, and we want a chrome style that doesn’t distract from the content of the app. We talk about Metro style apps as being “chromeless,” (that is, no title bar, borders, or Windows UI surrounding them.) Desktop apps, on the other hand, have a lot of chrome. When you add up the cacophony of a bunch of these windows floating on the screen, suddenly you have a lot of chrome pleading for your attention. Aero was designed to help the app’s content to be the center of attention, and for the Windows system UI to recede into the background. This is still relevant today, and while we are moving beyond Aero, we don’t want to lose sight of these goals.
    • Visual compatibility with Windows 7. Windows 7 is the most popular and widely-used version of Windows so far. We made a conscious effort to relate the visual appearance of the Windows 8 desktop to the visual appearance of the familiar Windows 7 desktop. This helps people who want to predominantly use the desktop feel comfortable and immediately at home in the new environment.

    We have made a number of improvements to the desktop visual appearance in Windows 8. Although we wanted the desktop to feel familiar, we also wanted to take some ideas from our new design language and apply them where we could.

    We applied the principles of “clean and crisp” when updating window and taskbar chrome. Gone are the glass and reflections. We squared off the edges of windows and the taskbar. We removed all the glows and gradients found on buttons within the chrome. We made the appearance of windows crisper by removing unnecessary shadows and transparency. The default window chrome is white, creating an airy and premium look. The taskbar continues to blend into the desktop wallpaper, but appears less complicated overall.

    To complete the story, we updated the appearance of most common controls, such as buttons, check boxes, sliders, and the Ribbon. We squared off the rounded edges, cleaned away gradients, and flattened the control backgrounds to align with our chrome changes. We also tweaked the colors to make them feel more modern and neutral.

    Two overlapping windows shown open on the Windows 8 desktop.

    While a few of these visual changes are hinted at in the upcoming Release Preview, most of them will not yet be publicly available. You’ll see them all in the final release of Windows 8!

    How will people learn to use Windows 8?

    As people have tried the Consumer Preview, some folks have publicly asked questions about “learnability.” The new UI introduces a few new concepts to the PC: in particular, swipe from the edge (for touch) and move to the corner (for the mouse.)

    Neither gesture works perfectly in the Consumer Preview—it should be expected that some things will not be perfect when we effectively design and test the product in the open like we do. The corners are too fragile to target reliably with the mouse right now, and it is too easy to frustratingly “fall away” from them. We have already significantly improved this in internal builds. And today’s touch hardware, which was designed for Windows 7, doesn’t always do a great job of interpreting swipes from the edge. The good news is that hardware designed for Windows 8 will have excellent edge detection, and our device manufacturer partners have been working on this for a long time.

    So, the gestures themselves will work more consistently, and will be better-tuned than what is in the Consumer Preview. But how will people learn to use them?

    We will post more about learnability soon: about how people discover and understand new concepts, and the specific steps we will be taking to make sure that people don’t feel lost the first time they sit down with a Windows 8 PC.

    But fundamentally, we believe in people and their ability to adapt and move forward. Throughout the history of computing, people have again and again adapted to new paradigms and interaction methods—even just when switching between different websites and apps and phones. We will help people get off on the right foot, and we have confidence that people will quickly find the new paradigms to be second-nature.

    Looking forward

    The Windows 8 user experience is forward-looking, yet respectful of the past. It reimagines what a PC is capable of, the scenarios for which it is optimized, and how you interact with it. It enables tablets and laptops that are incredibly light and thin, with excellent battery life, which you can use with touch and keyboard and mouse in any combination you prefer. It is also the most capable, lean, and usable OS ever to power desktop PCs and gaming rigs.

    The new Windows 8 user experience is no less than a bet on the future of computing, and stakes a claim to Windows’ role in that future. We tried to break new ground in imagining how using a PC might become a fluid and enjoyable experience, how apps might work together to simplify the tasks you do every day, and how a single screen could bring together everything you love and care about into one always up-to-date place.

    We believe in convergence—this has happened again and again in technology, and it will continue. We believe that you will want to carry around fewer, more capable devices. In addition to your phone, you want only one device that is equally at home on the couch and on the desk. You want a device that is light enough to hold for hours, but powerful enough to do real work with familiar and full-featured software—and which also allows a mouse or physical keyboard if you want. A device that is deeply personal, that natively understands the cloud, that roams your settings and content wherever you go.

    Yes, there are parts of the Windows 8 UI that have generated discussions and even debate, and aspects of the change that will take some people a little time to understand and digest. Any change, particularly a change that doesn’t just follow in the footsteps of what everyone else is doing, can be hard to fully grasp at first and will bring forward its share of both deep believers and naysayers.

    The full picture of the Windows 8 experience will only emerge when new hardware from our partners becomes available, and when the Store opens up for all developers to start submitting their new apps. At the same time, there's no doubt that all the features of Windows 8 are compelling on today's hardware designed for Windows 7—with or without touch. Since we designed Windows 8 to work great for laptops and desktops, it will work naturally for your Windows 7 hardware. Think of past versions of Windows that worked on existing hardware but were even better with new hardware. That's our approach with Windows 8.

    In 1993, when today’s familiar Windows 95 user experience was first designed, PCs were beige, heavy, disconnected, and sitting under an office desk plugged in all the time. An average PC cost $3450 in today’s money!

    Today, PCs are in the kitchen, in the living room, at the coffee shop, in your purse, on the train, in the passenger seat of your car. Increasingly they are mobile, always connected, affordable, and beautiful. And Windows PCs are in the workplace, no matter where that is or moves to. What would have seemed unrecognizable and “post-PC” 20 years ago is now the very definition of a PC.

    The world changes and moves forward. Windows will continue to change too, as it has throughout its 27-year history.

    Our vision for Windows 8 was to create a modern, fast and fluid user experience that defines the platform for the next decade of computing. One which upends the way conventional people think about tablets and laptops and the role of the devices they carry.

    We wanted to create an experience that works however you want to work, powering a new class of PCs that you are proud to own and love having in your life.

  • The UK Higher Education Blog

    How far has SharePoint come in UK Higher Education?

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    It’s been more than four years since I joined Microsoft taking on the role of Higher Education Business Manager and back in 2004 there was only a handful of universities using SharePoint. I used to hear about SharePoint version 1 as being unsuitable for a university, which seemed a bit harsh especially as SharePoint 2003 (version 2) was already a mature and well established platform.  Thanks to a number of early pioneers SharePoint 2007 is now widely deployed throughout UK Higher Education and is used to support a broad range of needs ranging from simple document management to business intelligence and VLEs and increasingly universities are recognising the value of SharePoint in its entirety and will deploy it as a platform connecting it to multiple content and data sources and people, like the diagram below shows.

    image

    One of those early pioneers was Kingston University and in particular Ian McNeice who did much to promote the use of SharePoint in higher education and challenge my own thinking about the possibilities for SharePoint.  Ian’s background led him to focus on the business benefits and he always looks for value and simplicity in a solution, it has to make a difference and people have to be able to use it.  Thanks to Ian and Kingston we published a number of case studies such as these:

    Kingston University Offers Students Enterprise-Class Tools Through New Portal Solution

    University Reinforces Excellence in Research with Innovative Blogs and Shared Research Sites

    and an IM interview with Darren Strange, Microsoft’s UK product manager for Office and Ian McNeice.

    Kingston University: the future's bright with 2007 Office

    Ian left Kingston University a couple of years ago and has worked on some impressive SharePoint projects in both the private and public sector reaching global deployments.  I’m pleased to have maintained contact with Ian because I still find him a useful source of inspiration for the full capability of SharePoint and he has started a blog which makes interesting reading.

    SharePoint continues to gather momentum and is already used as a number of customer facing web sites in the sector examples include:

    Coventry University

    Royal Academy of Music

    University of Gloucestershire

    Universities UK

    and the list is growing.   Increasingly, universities have taken the concept laid out below and are using SharePoint as a platform to enhance communication and collaboration across all people in the campus.  I apologise about the quality of the wording on the SharePoint pizza wheel, what they say isimage

    Portal (in the middle), Collaboration and Communication, Projects & Portfolio, Search, Enterprise Content Management, Business Process Integration, Business Intelligence

    This helps to show some of the capabilities of SharePoint but it’s not stopping there.  There are a growing number of partner solutions for delivering VLE functionality into SharePoint such as:

    SharePointLMS

    Luminosity Content Server

    Nisai

    Podcasting kit (yeah I know learning isn’t just about Podcasting)

     

    From here we can go onto explore Business Intelligence and the graphic below helps , from a technology point of view, how SharePoint delivers is but the important thing to note is that it’s about getting business intelligence onto the screens of the people who need it most.  The problem in many organisations is that it’s difficult to predict who those people are, it’s not always just the execs.  I know one university in the North East that has given a SharePoint based BI solution from VC down to PL – hoping to catch as many analysts along the way to create a more agile and confident business.

    Microsoft Business Intelligence Architecture

    So in four years, SharePoint has certainly come a long way in and is providing a wide range of benefits to UK Higher Education.  This is, in part, thanks to those early pioneers and visionaries and also the the many partners that are committing to delivering value back to this important sector.  To learn more about what SharePoint can do for your university please get in touch or speak to one of our partners.

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