Advances in wireless networking technology as well as the development in lower-power devices and ubiquitous Internet have brought wireless techniques beyond conventional data communication and information technology. Driven by real-world demands, such as manufacturing, health care, and robotics, power surveillance systems, and many emerging applications are characterized by time- and data-sensitive applications. We are currently investigating several aspects toward system design and applications, which not only provides an opportunity to practice our study and to collaborate with other groups, but also offers a platform to have undergraduate students participated in research activities. The emphasis on this research is on developing a personal indoor wireless sensor network and applying to wireless network controlled systems.
PINS: Personal INdoor
Sensor Networks
An
interesting and
potential application of wireless sensor networks (WSNs) is visually
(or virtually) tracking the person's daily interaction with his/her
habitat and monitoring the indoor conditions by the help of the sensors
embedded throughout the home, building, etc. One interesting example of
such applications is on Aging Services
Technologies with a specific focus on In-Home Health Care Solutions for
people of ages 65 and older. These
applications naturally brings in the need for deployment of an
"in-home" wireless sensor network. However, indoor environment is not a
benign
networking
environment where several obstacles may
render wireless communication impossible between node pairs. In
addition, due to limited and irregular sensing ranges, placement of
sensors becomes an important and challenging problem which may impact
the accuracy of the collected data.
In the general case, basic parameters for an indoor sensor network can
be impacts of node placement (position, orientation), transmission
range / sensing range ratio, distance of reachability and degree of
connectivity. Another interesting topic would be investigating how to
preserve reliability within an in-home wireless sensor network with
updated decisions on parameter settings (radio, llc/mac, routing,
application etc). This
would be very useful since home itself is like a living organism.
Furniture might move, neighbor might start to emit noise at
certain
hours, heat can change etc. Or, increased reliability might be needed
when an abnormal state is detected.
To
investigate and characterize the properties of Personal INdoor Sensor
networks (PINS), we establish an indoor sensor testbed. You can find
detailed information about the testbed from here.
STEP2 @ iSpace
iSpace is a network based integrated navigation system for unmanned ground vehicles (UGV) developed at the Advanced Diagnosis, Automation, and Control (ADAC) Laboratory. It has different modules combined together to guide a UGV from one point to another in the space of interest, where the navigation intelligence lies on a controller away from the UGV. There are some rules to decide the motion. The UGV has to reach the destination as quickly as possible and avoiding the obstacles in the space. The destination point is chosen by the user via any remote computing interface in the world using the iSpace GUI on the Internet. The figure below explains iSpace structure.
STEP2 is integrated with iSpace to provide dynamic and adaptive protection over the wireless part between the controller and robots. The whole iSpace flow diagram with the STEP2 is as follows. Presently, iSpace supports only confidentiality feature by using Data encryption standard (DES) and 3DES encryption/decryption algorithms.
Publications
- Rachana Gupta, Avesh K. Agarwal, Wenye Wang, Mo-Yuen Chow, "Characterization of data-sensitive wireless distributed networked-control-systems," to appear in the Proc. of the 2007 IEEE/ASME International Conference on Advanced Intelligent Mechatronics.
-
Avesh K. Agarwal and Wenye Wang, "DSPM: Dynamic Security Policy Management
for Optimizing Performance in Wireless Networks,"
in the Proc. of IEEE Milcom'06,
Washington, D.C. October 2006. >>
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