Ann redmond microsoft

If you don't recognize this sign-in attempt, Someone else might be trying to access your Network. Once you call, please provide your Reference no: AZ in order for technician to assist you better. Our Microsoft certified Technician will provide you the best resolution.

You have received this mandatory email service announcement to update you about important changes to your Windows Computer. I have the same question Report abuse. Details required :. Cancel Submit. No, that's neither a Microsoft phone number nor a legitimate email from Microsoft. Just ignore it and throw it away. How satisfied are you with this reply? Share this page:. Highlights Expressive Pixels: A new visual communication platform to support creativity, accessibility, and innovation.

Enabling design with Ann Paradiso. Watch the Eyes First games demo. Our focus We focus on designing novel assistive and accessible technologies with the goal of ensuring everyone, including those living with extreme constraints, has access to creative pursuits, personal expression, and meaningful human connection with others.

Yih received his Ph. Richard Zemel is a Professor of Computer Science at the University of Toronto, where he has been a faculty member since His research interests include topics in machine learning, vision, and neural coding.

His recent research focuses on structured output models, image-text analysis, and fairness. Luke Zettlemoyer is an assistant professor in computer science and engineering at the University of Washington.

He does research in natural language processing, with a focus on empirical computational semantics. His research interest lies in designing and implementing protocols that improve the capacity, interoperability, and energy-efficiency of wireless networks. Zhengyou Zhang is a principal researcher with Microsoft Research, Redmond, Washington, and the research manager of the Multimedia, Interaction, and Experiences group. He has been on the program committees for numerous international conferences in the areas of computer vision, audio and speech signal processing, multimedia, human-computer interaction, and autonomous mental development.

Heather Zheng received Ph. His main research interest is in the area of distributed systems. He holds a Ph. Lawrence Zitnick is a principal researcher in the Interactive Visual Media group at Microsoft Research, and is an affiliate associate professor at the University of Washington.

He is interested in a broad range of topics related to visual object recognition, language and artificial intelligence. He developed the PhotoDNA technology used by Microsoft, Facebook, Google, and various law enforcement agencies to combat illegal imagery on the web.

Ben Zorn is a Research Manager and Principal Researcher, co-managing the Research in Software Engineering RiSE group, a group of over 30 researchers and developers working on programming languages and software engineering in Microsoft Research, Redmond. Zorn left the University of Colorado in to join Microsoft Research, where he currently works.

His research interests include programming language design and implementation for reliability, security, and performance. Accurately predicting body fat, waist size, and BMI. Body measurements are important for health assessments and weight control. This project accurately obtains body measurements without measuring devices.

Participants match their body type to a computer-generated image, and the system deduces their waist size and Body Mass Index BMI. Designed to interoperate with existing systems and scenarios, the service includes multiple consumable pieces and a standalone cloud service. Early detection of melanomas is crucial to clinical outcomes.

Using deep probabilistic models trained on images of moles, our system distinguishes benign lesions from malignant tumors, surpassing the diagnostic ability of previous computational attempts and experienced dermatologists. Our platform promotes quick interaction between human teacher and learning machine.

It uses an interactive loop, where users alternate between feature ideation to fix errors in the training set and exploration to discover new pockets of false positives and false negatives. Fully articulated hand tracking. We present a real-time, articulated hand tracker that enables new possibilities for human-computer interaction.

Our system accurately reconstructs complex hand poses, using only a single depth camera. It also allows for a high-degree of robustness, continually recovering from tracking failures. Image captioning with near-human performance. People can look at a picture and immediately describe what is important. This project gives computers similar capabilities, combining the latest in deep neural network image processing with the latest approaches to language modeling to produce an automated captioning system.

Microsoft customer support specialists handle issues captured by free-form and unstructured text input. SysSieve employs machine learning, natural language processing, information theory and ontology modeling to derive automated inference and insights from a range of free-form text.

Crypto-verified elections: reality in Texas. Learn how the STAR-Vote system will soon enable voters in Austin, Texas, to verify the accuracy of election results directly, without relying on election officials and system vendors. Oh, and it will save them money, too. Eye Gaze wheelchair. Begun during the Microsoft Summer Hackathon, Eye Gaze technology strives to bring independent mobility to people with disabilities who cannot use a joystick.

Learn how Minecraft is being used in education. From math and science to humanities and history, Minecraft is empowering teachers and engaging students to create, collaborate and share. Project Premonition: detecting emerging infectious diseases.

Project Premonition seeks to detect pathogens before they make people sick. It uses drones and robotic traps to capture mosquitoes, which are potent disease vectors, and then detects pathogens by gene sequencing the collected mosquitoes and computationally searching for pathogens.

Our system uses paper cards for voting and a low-cost smartphone or a laptop plus webcam to capture and process votes. Be there: 3D audio virtual presence. Using 3D scans of your head, we synthesize your personal head-related transfer function. Then you don headphones and stand before of a pair of large screens, experiencing sights and 3D sounds as if you were there. DynaChord allows the use of dynamic, hierarchical chord gestures to interact with a large multi-touch display.

Presenter Camera: a virtual camera for best presentation. Rapid prototyping with TouchDevelop. Devices are everywhere: from those we use, like phones and tablets, to those we can program, including Arduinos and IoT sensors. TouchDevelop now supports the creation of device firmware—so even beginners can use devices to program devices.

RoomAlive toolkit. The RoomAlive Toolkit is an open-source software development kit that enables developers to create new immersive augmented reality experiences by calibrating a network of multiple Kinect sensors and video projectors. Our technique provides rapid, secure pairing with device tracking and targeted interactions, enabling a range of interactive functions. Textile electronic touch sensor. We show designs that deliver multi-touch performance from a textile platform and demonstrate how these touch sensors offer unique functionality to next-generation electronic devices.

Artificial intelligence at Microsoft. Learn about artificial intelligence research, applications e. Azure for Research and Azure Machine Learning. Amp up your research. Microsoft Azure for Research offers grants that enable big data computations in the cloud. Microsoft Azure Machine Learning makes it easy for the academic community to use machine learning technology for their research. Data Science at Microsoft Research. Open Source Software from Microsoft for Academics.

Open source is a powerful way of advancing software development. Microsoft has open sourced cutting-edge research projects as well as such key software as. NET, and has classified it especially for academics. Often the software is cross platform, too. Project Catapult is a ground-breaking FPGA-based enhancement of server hardware that vastly improves the performance and speed of datacenter workloads.

We will demonstrate its power by running workloads on both a standard server and a server enhanced with Catapult. Cognitive Services. The current portfolio includes services for facial recognition, speech, computer vision and natural language. Research Fellowships. The Microsoft Research Fellowship Program provides financial support for students and early-career faculty, allowing them to focus on their research.

Fellowships build lasting relationships between Microsoft Research and academic institutions. Research Internships. Interns at Microsoft Research put theory into practice, while working with renowned researchers and networking with fellow PhD students from around the world. Microsoft Research Internship opportunities are available year-round at all our worldwide labs.

Academic Services. Academic Services is a suite of apps and services that will help researchers and students be more productive and stay current with their research domain and related areas. Learn about internship, fellowship and career opportunities that put you on the forefront of computer science research and technology development, let you see your work impact real-world applications and enable you to collaborate and network with researchers around the globe.

Project Flashprog: data transformation by example. Project Flashprog develops technologies for extracting data from semi-structured documents into a relational table, which can be used for analysis or visualization tasks. An intuitive interface allows users to express their intent, explore the resulting program and tailor it to their needs. The Microsoft Research Computational Photography Group uses computation to push the limits of photography, conducting early-stage research and turning promising research into applications.

The demo will showcase some of our recently shipped applications and walk through the technology behind them. NUIGraph: explore and display your data with touch.

Big data offers immense potential for insights, but it can be challenging to interact with and analyze. Power Map provides robust analytical tools for big data. From the familiar base of Excel, you can map data, discover new insights, and then create and share stories about that data. An interactive platform that combines data from a variety of sources, Microsoft Prediction Lab enables people to produce and consume information about the present status and predicted outcomes of a wide range of market intelligence questions.

Microsoft Band: Reimagining personal healthcare. Built on years of research, testing, iterating and inventing, Microsoft Band represents an entirely new product category for the company. Using a security-enhanced cloud platform, Microsoft Band stores and analyzes personal health data, potentially transforming personal health and fitness. Removing the language barrier with Skype Translator. Incorporating the latest advances in machine learning, speech recognition and automatic translation, Skype Translator seeks to remove the last hurdle to global communication: the language barrier.

See it in action and learn how it works. Code Hunt: exploring how programmers code. Code Hunt is an education game whose , participants have generated over 1. Discover how coders code and how technology can make the process more accurate and less painful. Madoko: create and share programmable documents. It promotes collaborative editing, with concurrent changes automatically shown and merged. Madoko also runs on the web and automatically synchronizes changes in the cloud.

Node Atlas is an agile, flexible geographical Azure database with a web front-end that allows users to curate and explore countless pieces of information indexed by geography, date, time, and any number of metadata items. Programmability of scalable, geo-distributed, interactive applications. Orleans enables programmers to build scalable, interactive applications that run across hundreds of servers in a datacenter. We show new mechanisms that enable Orleans applications to scale across many datacenters, with improved fault tolerance and latency at no cost to the programmer.

Query from Cortana is often expanded into a complex spatial search reflecting both geographic intent of current location and geo-specific keyword rewrites. See how a cost-based optimization vastly outperforms existing techniques motivates predictive optimization deployed to Bing from our prior work. Time-travel debugging for JavaScript. It leverages memory management and virtualization features so that developers enjoy a much faster cycle for bug hypothesis generation and investigation, with negligible runtime overhead.

We demonstrate how Halo debugged their multiplayer application using two Microsoft Research technologies: Trill, a streaming query processor, and Tempe, a Web-based interactive, real-time dashboarding and analysis tool.

Verifying networks like programs. Network configuration errors frequently cause outages. Our tool, Batfish, detects a broad range of such errors proactively, before the configuration is applied to the network.

Learn how Batfish analyzed bugs in two large university networks, finding many misconfigurations. In smart cities, cameras will generate copious amount of video data, but their ubiquity limits video that can be sent to the cloud, especially on wireless networks. See how a real-time distributed wireless surveillance system uses edge computing to save wireless capacity. What can we solve with a quantum computer? Wondering what quantum computing actually requires and the high-level physics behind it?

This demo explains the software architecture and shows how to run small quantum algorithms on your laptop through simulation. Each year, we hold events in conjunction with the Faculty Summit to provide opportunities for deeper technical engagement. Below, you will see a number of opportunities participants had for further engagement during the Faculty Summit. Join us for a minute Microsoft Azure Machine Learning Azure ML all-hands training where you will explore the power of cloud-based predictive analytics.

Hear from students who have used Azure ML and how it has helped facilitate collaboration with colleagues without extensive technical training in the academic community. Azure ML will enable you with the following:. Take advantage of the Microsoft Azure for Research program and learn how you can receive a free Azure award! We want to hear from researchers and students who are focusing on solving real problems for the benefit of society.

Proposals are due August 15, Note for participants: please bring a laptop and power cord for your use at this training. The Software Engineering Mix provides a forum for our colleagues from academia to interact directly with Microsoft engineers. The program will feature talks from academics: highlights of published research that is highly relevant for Microsoft and blue sky talks summarizing emerging research areas. In addition, practitioners will give presentations about theoretical and pragmatic engineering challenges they face, perhaps soliciting help from academia.

A coffee round table setting will be used to facilitate discussions. This session builds on the success of SEIF Days, which provided a discussion forum about the future of software engineering.

This workshop aims to answer the question: if we had a quantum computer, what would we do with it? Quantum computers are hypothetical devices that would use the quantum mechanical properties of superposition and entanglement to solve problems that are likely to be forever out of reach of classical computers. There is currently a major worldwide effort to build quantum computers in order to realize these speedups over classical, digital computing.

More recent work suggests that quantum computers may have important applications in machine learning and even in the simulation of classical systems.

But quantum algorithms are generally much less well understood than their classical cousins. In particular, we lack a good understanding of which important problems can be solved much faster on quantum computers and which cannot. In this workshop, we will discuss current challenges in building a quantum computer, designing quantum algorithms, and implementing them in hardware.

Citation counts and related metrics, such as Journal Impact Factor JIF and researcher h-index calculations, attempt to quantify the relative impacts of published works, journals, and authors with mixed success and with often unintended re-applications. Others have run experiments of the citation graph in order to discover emerging areas of research, collaboration and influence networks, ranked lists of researchers and institutions, and funding trends.

Several core challenges, such as the tools and methods for analyzing and mining scholarly data will be the main center of discussions at the workshop. The goal of this Birds of a Feature workshop is to foster a community interested in collaborating around this area, including new ranking approaches, recommender systems, social network analysis and other appropriate technologies.

Microsoft distributed large, next-generation touch displays to academic researchers to seed early research. The research conducted on these prototype devices included information visualization, human computer interaction, health informatics, visual analytics, science visualization, accessibility and education.

This workshop will be an opportunity for the researchers to share their findings with each other, envision the future potential of large touch display devices, as well as with other interested researchers and Microsoft engineers. Holograms are the next evolution in computing.

While we have just scratched the surface of what is possible, this workshop will discuss potential research around how Holographic computing and, specifically, Microsoft HoloLens. Microsoft HoloLens goes beyond augmented reality and virtual reality by enabling you to interact with three-dimensional holograms blended with your real world.

Microsoft HoloLens features see-through, holographic, high-definition lenses and spatial sound so that you can see and hear holograms in the world around you. Complete with advanced sensors and a new Holographic Processing Unit HPU that understands the world around you, Microsoft HoloLens is able to run without any wires while processing terabytes of data from the sensors in real-time.

Workshop attendees will learn more about how to get started designing and developing for Microsoft HoloLens and explore how to bring their apps to life. Distributed computing with the cloud in mind is not easy. Having systems that are reliable and fast is taken for granted these days, but the software required to build them is still hard to use.

This workshop will start with a deep dive into one of the more successful systems for developing reliable, scalable interactive applications for the cloud: Orleans. Orleans is used by Microsoft as the basis for the Halo game, among other applications, and in January was released as open source. Thereafter there will be talks and discussion of other similar systems, and of how open source can be utilized to advance and improve the tools we have.

The Orleans team as well as Microsoft Research Outreach will be at the workshop to start a community in building high-scale distributed computing applications. Catapult is a Microsoft project investigating the use of field-programmable gate arrays FPGAs to improve performance, reduce power, and provide new capabilities in the datacenter. The Catapult project started as a collaboration between Microsoft Research and Bing. Many other applications and services can be accelerated as well.

The bottom line for datacenters is more throughput and lower latencies, translating to lower power and cost, higher quality results, or a combination of both. In this workshop the speakers will present design of Catapult and possible applications where the power of Catapult can be harnessed to the fullest. A Better Way to Deliver Innovation? Follow us:. Share this page:. Chair: Carolyn Nguyen, Microsoft video Speakers:. McKinley, Microsoft Research video Speakers:. Chair: Larry Zitnick, Microsoft Research video Speakers: Julia Hockenmaier, University of Illinois-Urbana Champaign slides Margaret Mitchell, Microsoft Research slides Richard Zemel, University of Toronto slides The recent advances in computer vision, natural language processing and other related areas has led to a renewed interest in artificial intelligence applications spanning multiple domains.

Chair: Ed Cutrell, Microsoft Research video slides Speakers: Elizabeth Belding, University of California-Santa Barbara Andrew Cross, Microsoft Research slides Aaditeshwar Seth, Indian Institute of Technology, Delhi slides As the cost of information technology falls and the reach of communication systems grows ever more pervasive, hundreds of millions of people are being exposed to computing technologies for the very first time.

A Revolution Against Big-Brother Social Networks Speaker: Monica Lam, Professor, Stanford University video With the widespread adoption of proprietary social networks like Facebook and mobile chat platforms like Wechat, we may be heading to a future where all our communication are monetized and our online transactions are mediated by closed monopolistic big-data companies.

Chair: Eric Horvitz, Microsoft Research video Speakers: Dan Bohus, Microsoft Research slides Manuela Veloso, Carnegie Mellon University Larry Zitnick, Microsoft Research slides Over the last 15 years, significant advances have been made in inference and decision making under uncertainty, machine learning, vision, speech recognition, natural language processing, and dialog.

McKinley, Microsoft Research video Speakers: Michael Carbin, Microsoft Research slides Noah Goodman, Stanford University slides Dan Grossman, University of Washington slides Todd Mytkowicz, Microsoft Research slides Many emerging applications produce and use estimates in domains as diverse as probabilistic reasoning, machine learning, data analytics, approximate computing, and sensor programming.

Lee Giles, Pennsylvania State University slides Oren Etzioni, Allen Institute for Artificial Intelligence slides Jie Tang, Tsinghua University, China slides Kuansan Wang, Microsoft Research slides As web search is becoming more and more structured thanks to the availability of knowledge bases, scholar engines are also evolving towards that direction while facing the similar challenges and issues.

Lili was born in Tokyo, is married with three boys, and lives in Bellevue Washington. Deep models for automated melanoma diagnosis Early detection of melanomas is crucial to clinical outcomes. Feature discovery and exploration for interactive ML Our platform promotes quick interaction between human teacher and learning machine. Fully articulated hand tracking We present a real-time, articulated hand tracker that enables new possibilities for human-computer interaction.

Image captioning with near-human performance People can look at a picture and immediately describe what is important. SysSieve: turn user feedback to actionable insights Microsoft customer support specialists handle issues captured by free-form and unstructured text input. Crypto-verified elections: reality in Texas Learn how the STAR-Vote system will soon enable voters in Austin, Texas, to verify the accuracy of election results directly, without relying on election officials and system vendors.

Eye Gaze wheelchair Begun during the Microsoft Summer Hackathon, Eye Gaze technology strives to bring independent mobility to people with disabilities who cannot use a joystick. Minecraft in education Learn how Minecraft is being used in education. Project Premonition: detecting emerging infectious diseases Project Premonition seeks to detect pathogens before they make people sick. Be there: 3D audio virtual presence Using 3D scans of your head, we synthesize your personal head-related transfer function.

Multi-touch interaction using dynamic chord gestures DynaChord allows the use of dynamic, hierarchical chord gestures to interact with a large multi-touch display. Rapid prototyping with TouchDevelop Devices are everywhere: from those we use, like phones and tablets, to those we can program, including Arduinos and IoT sensors.

RoomAlive toolkit The RoomAlive Toolkit is an open-source software development kit that enables developers to create new immersive augmented reality experiences by calibrating a network of multiple Kinect sensors and video projectors. Textile electronic touch sensor We show designs that deliver multi-touch performance from a textile platform and demonstrate how these touch sensors offer unique functionality to next-generation electronic devices.

Artificial intelligence at Microsoft Learn about artificial intelligence research, applications e. Open Source Software from Microsoft for Academics Open source is a powerful way of advancing software development. Project Catapult: FPGA-based enhancement of server hardware Project Catapult is a ground-breaking FPGA-based enhancement of server hardware that vastly improves the performance and speed of datacenter workloads.

Research Fellowships The Microsoft Research Fellowship Program provides financial support for students and early-career faculty, allowing them to focus on their research. Research Internships Interns at Microsoft Research put theory into practice, while working with renowned researchers and networking with fellow PhD students from around the world. Academic Services Academic Services is a suite of apps and services that will help researchers and students be more productive and stay current with their research domain and related areas.

Project Flashprog: data transformation by example Project Flashprog develops technologies for extracting data from semi-structured documents into a relational table, which can be used for analysis or visualization tasks.