1 / 29

Smart Home Technologies

Smart Home Technologies. CSE 4392 / CSE 5392 Spring 2006 Manfred Huber huber@omega.uta.edu. Intelligent Environments. Environments that use technology to assist inhabitants by automating task components Aimed at improving inhabitants’ experience and task performance

rodd
Télécharger la présentation

Smart Home Technologies

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Smart Home Technologies CSE 4392 / CSE 5392 Spring 2006 Manfred Huber huber@omega.uta.edu

  2. Intelligent Environments • Environments that use technology to assist inhabitants by automating task components • Aimed at improving inhabitants’ experience and task performance • NOT: large number of electronic gadgets

  3. Objectives ofIntelligent Environments • Improve Inhabitant experience: • Optimize inhabitant productivity • Minimize operating costs • Improve comfort • Simplify use of technologies • Ensure security • Enhance accessibility

  4. Requirements forIntelligent Environments • Acquire and apply knowledge about tasks that occur in the environment • Automate task components that improve efficiency of inhabitant tasks • Provide unobtrusive human-machine interfaces • Adapt to changes in the environment and of the inhabitants • Ensure privacy of the inhabitants

  5. Examples of Intelligent Environments • Intelligent Workspaces • Automatic note taking • Simplified information sharing • Optimized climate controls • Automated supply ordering

  6. Examples of Intelligent Environments • Intelligent Vehicles • Location-aware navigation systems • Task-specific navigation • Traffic-awareness

  7. Examples of Intelligent Environments • Smart Homes • Optimized climate and light controls • Item tracking and automated ordering for food and general use items • Automated alarm schedules to match inhabitants’ preferences • Control of media systems

  8. Existing Projects • Academic • Georgia Tech Aware Home • MIT Intelligent Room • Stanford Interactive Workspaces • UC Boulder Adaptive House • UTA MavHome Smart Home • TCU Smart Home

  9. Existing Projects • Industry • General Electric Smart Home • Microsoft Easy Living • Philips Vision of the Future • Verizon Connected Family

  10. Georgia Tech Aware Home • Perceive and assist occupants • Aging in Place (crisis support) • Ubiquitous sensing • Scene understanding, object recognition • Multi-camera, multi-person tracking • Context-based activity • Smart floor • http://www.cc.gatech.edu/fce/ahri/

  11. MIT Intelligent Room • Support natural interaction with room • Speech-based information access • Gesture recognition • Movement tracking • Context-aware automation • http://www.ai.mit.edu/projects/aire/

  12. Stanford Interactive Workspaces • Large wall and tabletop interactive displays • Scientific visualization • Mobile computing devices • Computer-supported cooperative work • Distributed system architectures • http://iwork.stanford.edu/

  13. UC Boulder Adaptive House • Infer patterns and predict actions • Machine learning for automation • HVAC, water heater, lighting control • Goals: • Reduce occupant manual control • Improve energy efficiency • http://www.cs.colorado.edu/~mozer/house/

  14. UTA MavHome Smart Home • Learning of inhabitant patterns • Learn optimal automation strategies • Goals • Maximize comfort and productivity Minimize cost • Ensure security • http://ranger.uta.edu/smarthome/

  15. TCU Smart Home • Inhabitant Prediction • Smart entertainment control • Smart kitchen recipe services • Household staff modeling • http://personal.tcu.edu/~lburnell/crescent/crescent.html

  16. General Electric Smart Home • Appliance control interfaces • Climate control • Energy management devices • Lighting control • Security systems • Consumer Electronics Bus (CEBus) • http://www.geindustrial.com/cwc/home

  17. Microsoft Easy Living • Camera-based person detection and tracking • Geometric world modeling for context • Multimodal sensing • Biometric authentication • Distributed systems • Ubiquitous computing • http://research.microsoft.com/easyliving/

  18. Philips Vision of the Future • Less obtrusive technology • Technology devices • Interactive wallpaper • Control wands • Intelligent garbage can • http://www.design.philips.com/vof

  19. Verizon Connected Family • Remote monitoring of the home • Entry authentication • Integrated, pervasive communications • Centralized data management

  20. Challenges inIntelligent Environments • Home design and sensor layout • Communication and pervasive computing • Natural interfaces • Management of available data • Capture and interpretation of tasks • Decision making for automation • Robotic control • Large-scale integration • Inhabitant privacy

  21. Sensors • How many and what type? • How to interpret sensor data? • How to interface with sensors? • Are sensors active or passive?

  22. Communications • What medium and protocol? • How to handle bandwidth limitations? • What structure does the communication infrastructure have?

  23. Data Management • How to store all the data? • What data is stored? • How is data distributed to the pervasive computing infrastructure?

  24. Prediction & Decision Making • How to extract and represent inhabitants’ task patterns? • What patterns should be maintained? • How to determine the actions to automate? • To what level should tasks be automated?

  25. Automation • How are the tasks automated? • How are actuators controlled? • How is safety ensured?

  26. System Integration • How to achieve extensibility? • Should the system be centralized or decentralized? • How to integrate existing technology components? • How to make integration and interface intuitive?

  27. Privacy • How to ensure that inhabitant information remains private? • What data should be gathered? • How should personal data be maintained and used?

  28. Course Topics • Sensing • Networking • Databases • Prediction and Data Mining • Decision Making • Robotics • Privacy Issues

  29. Example Scenario • Smart kitchen item tracking • Sense and monitor items in the kitchen • Predict usage patterns • Automatically generate shopping lists based on usage patterns • Automatically retrieve replacement items

More Related