Abstract
The iBracelet and the Wireless Identification and Sensing Platform promise the ability to infer human activity directly from sensor readings.
- Dishman, E. Inventing wellness systems for aging in place. Computer 37, 5 (May 2004), 34--41. Google ScholarDigital Library
- Fishkin, K., Consolvo, S., Rode, J., Ross, B., Smith, I., and Souter, K. Ubiquitous computing support for skills assessment in medical school. Presented at the Second International Workshop on Ubiquitous Computing for Pervasive Healthcare Applications (Nottingham, England, Sept. 6--7, 2004); www.pervasivehealthcare.org/ubicomp2004/papers.Google Scholar
- Fletcher, R. Low-Cost Electromagnetic Tagging: Design and Implementation. Ph.D. dissertation, MIT, Cambridge, MA, 2002; www.media.mit.edu/physics/publications/theses.Google Scholar
- Munguia Tapia, E., Marmasse, N., Intille, S., and Larson, K. MITes: Wireless portable sensors for studying behavior. In Extended Abstracts of the Sixth International Conference on Ubiquitous Computing (Nottingham, England, Sept. 7--10, 2004); ubicomp.org/ubicomp2004/adjunct/demos.Google Scholar
- Paradiso, J., Pardue, L., Hsiao, K.-Y., and Benbasat, A. Electromagnetic tagging for electronic music interfaces. Journal of New Music Research 32, 4 (Dec. 2003), 395--409.Google Scholar
- Philipose, M., Smith, J., Jiang, B., Mamishev, A., Roy, S., and Sundara-Rajan, K. Battery-free wireless identification and sensing. IEEE Pervasive Computing Magazine 4, 1 (Jan.--Mar. 2005), 10--18. Google ScholarDigital Library
- Philipose, M., Fishkin, K., Patterson, D., Perkowitz, M., Hahnel, D., Fox, D., and Kautz, H. Inferring activities from interactions with objects. IEEE Pervasive Computing Magazine 3, 4 (Oct.--Dec. 2004), 50--57. Google ScholarDigital Library
- Smith, J., Jiang, B., Roy, S., Philipose, M., Sundara-Rajan, K., and Mamishev, A. ID modulation: Embedding sensor data in an RFID timeseries. In Proceedings of The Seventh Information Hiding Workshop (Barcelona, Spain, June 6--8, 2005). Springer-Verlag, Berlin, 2005. Google ScholarDigital Library
Index Terms
- RFID-based techniques for human-activity detection
Recommendations
Sensor-Based Abnormal Human-Activity Detection
With the availability of affordable sensors and sensor networks, sensor-based human activity recognition has attracted much attention in artificial intelligence and ubiquitous computing. In this paper, we present a novel two-phase approach for detecting ...
Development of RFID Textile and Human Activity Detection Applications
VMR '09: Proceedings of the 3rd International Conference on Virtual and Mixed Reality: Held as Part of HCI International 2009We developed RFID woven textile and a customized textile inspection machine with an automatic map making function. These developments have potentials to extend location aware systems in real use. In this paper, we present a process of the development of ...
Design of a zigbee-based RFID network for industry applications
SIN '09: Proceedings of the 2nd international conference on Security of information and networksIn this paper, the implementation of a ZigBee based integrated WSN and RFID system suitable for an industrial environment is explained. The overall system consists of a central monitoring station connected to local stations through Ethernet backbone. ...
Comments