• Corpus ID: 14645928

Low Power Operating System and Wireless Networking for a Real Time Sensor Network

@inproceedings{Wixted2002LowPO,
  title={Low Power Operating System and Wireless Networking for a Real Time Sensor Network},
  author={Andrew Wixted and Daniel Arthur James and David Victor Thiel},
  year={2002}
}
Wireless networking of sensor devices is becoming more pervasive as technology, particularly miniaturization makes more sensing applications possible. Power efficient operating systems and network protocols are key components for wireless sensing applications. This paper presents a low-power operating system and associated wireless protocols that have been developed to operate in a centrally synchronized real-time sensor network. The developed operating system is generic and loosely coupled to… 
research-repository.griffith.edu.au
6 Citations
Background Citations
1
Methods Citations
3

Figures and Tables from this paper

6 Citations

A low cost self contained platform for human motion analysis
TLDR
A low cost sensor platform for use in human motion investigations based on a readily available low cost microprocessor and features on-board memory, inertial sensors, USB communications and provision for additional sensors is described.
An accelerometer based sensor platform for insitu elite athlete performance analysis
A sensor data acquisition platform has been developed for in-situ sporting applications encompassing stand alone high speed sampling and storage of multiple accelerometer data. Ambulatory monitoring
Determining maximum push-off velocity in swimming using accelerometers
Measurement of Energy Expenditure in Elite Athletes Using MEMS-Based Triaxial Accelerometers
Fitness development and performance assessment of elite athletes requires an understanding of many physiological factors, many of these are direct and indirect measures of athlete energy expenditure.
Signal processing for estimating energy expenditure of elite athletes using triaxial accelerometers
Fitness development of elite athletes requires an understanding of physiological factors such as athlete energy expenditure (EE). For athletes involved in football at the elite level, it is necessary
From conception to reality: A wearable device for automated swimmer performance analysis

References

SHOWING 1-4 OF 4 REFERENCES
PicoRadios for wireless sensor networks: the next challenge in ultra-low power design
  • J. Rabaey, J. Ammer, T. Tuan
  • Computer Science
    2002 IEEE International Solid-State Circuits Conference. Digest of Technical Papers (Cat. No.02CH37315)
  • 2002
TLDR
The challenges and opportunities in the design of integrated wireless sensor and actuator nodes, to be used in such self-configuring ad-hoc networks, are described.
Multi-beam switched parasitic antenna embedded in dielectric for wireless communications systems
A nine monopole antenna embedded in a dielectric cylinder mounted on a small ground plane has been designed for IEEE 802.11 applications. Two simultaneous beams are controlled electronically with a
12.3 PicoRadios for Wireless Sensor Networks -The Next Challenge in Ultra-Low Power Design
  • 12.3 PicoRadios for Wireless Sensor Networks -The Next Challenge in Ultra-Low Power Design
  • 2001
Digital Wireless Communications using MIMOlinks
  • Digital Wireless Communications using MIMOlinks
  • 2002