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Intel Developer Forum News: Day 0
On the eve of the Intel Developer Forum, which is taking place these days in San Francisco, Intel Corporation held a series of press briefings on research activities and the development of promising computing technologies. Here are the main news of the “zero” day of the forum.
Jim Held, Distinguished Research Engineer of Intel, Director of the Tera Computing Science Program, spoke about new models of using “networked” visual computing, involving the exchange of experience and information online using interactive visual interfaces. They can be divided into two main categories: simulated conditions (virtual worlds, collective interactive games, three-dimensional cinema) and augmented reality, when real images are combined with digital information to get a more complete vision of the world around us. Jim Held talked about key uses of these models, including innovative new client / server platforms, smarter distributed computing, tools to generate custom 3D content, and technologies to make mobile devices more efficient. He unveiled Intel’s new research agenda that addresses key technical issues hindering the widespread adoption of networked visual computing. Such studies include:
- Parameterized content. This research is aimed at ensuring that a computer, based on the given parameters, independently selects a human face and creates its three-dimensional model, as well as simple creation of expressive images of human faces for virtual characters.
- Parameterized functioning. The goal of the project is to expand the functionality of computer image recognition on mobile devices by distributing tasks between devices and a remote server.
- OpenSim Collaboration: Intel is collaborating with various industry players on this open platform to create distributed 3D environments. Collaboration is based on the experience and knowledge of the Intel Tera-scale Computing Research program, including the 80-core processor, as well as the Carry Small Live Large concept (smaller, more efficient), which can significantly improve the efficiency of mobile devices.
Andrew Chien, Vice President of the Corporate Technology Group, Director of Intel Research, presented the concept of new computing capabilities for connecting the real and digital worlds using sensors – “windows” to the real world. Chin talked about a variety of devices ranging from microscopic to macroscopic, including video sensors that track stem cell development and skin damage, “atoms” that interact with nearby devices to form flexible physical images using Dynamic Physical Rendering, cameras and accelerometers that track human activity. for education and entertainment, as well as environmental sensors to respond to climate change. The main component of success is the ability to accurately measure many parameters of the real world, analyze these parameters and implement appropriate actions. Chin has demonstrated several examples of similar studies taking place in Intel labs:
- DermFind: Demonstration of an interactive decision-making system for melanoma search that allows healthcare providers to take images of skin lesions and add them to a generated database of similar cases. Diagnostic and treatment information associated with similar cases found helps clinicians make better decisions.
- Dynamically Computing Computing: Allows you to overcome the resource constraints of mobile devices (for example, small screen size) by creating a logical platform that uses the resources of neighboring devices, and also provides its resources to increase the capabilities of other computing devices in the vicinity.
- Stem Cell Development Tracking: Intel Introduces Fully Automated Vision System Capable of Simultaneously Tracking and Analyzing Thousands of Observed Cells Using a Time-Lapse Phase Contrast Microscope.
Emerging Platforms Lab Director Mary Smiley spoke about the main research areas in the implementation of the concept of “Carry Small, Live Large” aimed at creating technologies that bring great value to the user through better understanding of his problems, needs and environment using sensors and analysis of information. Sensors can collect a lot of data, but one of the problems associated with them is the accurate interpretation and understanding of this data in order to ensure effective use of the information received. Smiley showcases a research project that uses sensors and information interpretation systems to monitor individual health conditions.
This mobile platform will continuously monitor the health of human vital organs, as well as record nutritional information to maintain good physical shape and better understand the correspondence between activity and the amount of food consumed. The use of multiple sensors on the body will help to better understand the state of human health, i.e.to. a larger number of measuring points will allow you to make more informed conclusions about its life. This demo is a prototype of future medical applications based on mobile platforms that will collect and analyze data on the types and duration of various activities, as well as their intensity (energy consumption).