Wireless Sensor Networks: Difference between revisions

Revision as of 12:41, 12 November 2010

A wireless sensor network (WSN) consists of distributed autonomous sensor nodes to cooperatively monitor/control physical or environmental conditions, such as temperature, sound, vibration. This page describes our activities in the area of WSN.

Available WSN hardware

9x MoteIV TmoteSky and 9x Crosbow TelosB WSN modules:

Beneš Pavel - 0x + 0x USB cabel + 0x accumulator + 0x charger
Markovic Erik - 0x + 0x USB cabel + 0x accumulator
Juras Marek - 0x TelosB +0x USB cabel + 0x accumulator + 0x charger
Trdlika Jiří - 18x TelosB

2x Freescale 1320x RF Daughter Card:

Jurík Petr - 2x

2x TI/Chipcon CC2420DK (CC2400EB + CC2420EM + Antenna)

Trdlika Jiří - 2x

2x TI/Chipcon CC2420 EMK

Jurík Petr - 2x

WSN Applications

Automotive E-safety System

responsible people:
- Soukup Jan, Krákora Jan
short description:
- wireless vehicle to vehicle communication, which should improve the active safety on the roads. The main goal is to prevent the mass car accidents with the distributed warning system. In consequences of an obstacle detection (driver's reactions - hard breaking, fast trajectory change...) the function unit starts to transmit a warning signal which is then distributed to other nearby vehicles and forwarded by them to cars a few kilometers ahead the obstacle.
date
- March2006 -
Automotive safety system project link

Parkinson's disease monitoring

responsible people:
- Markovi Erik, Auersvald Martin, Kubias Jiří, Šprdlík Otakar, Jurík Petr, Jiří Trdlika
short description:
- Wireless sensor motes placed on limbs (legs, arms) transmit periodically measured data to a central node for storing and evaluation. Once a day (or in predefined period) data from central node is downloaded to PC or PDA for analysis and computation of feedback in the form of brain stimulation or appropriate dose of medicine.
date:
- Jul/2006 -
Parkinson's disease monitoring project link

Real-Time Object Tracking with Wireless Sensor Networks

responsible people:
- Inderjit Singh, Jiří Trdlika
short description:
- The aim of the thesis is to design and implement a wireless sensor network for object tracking under real-time constraints, using time division media access (TDMA).
date
- February/2007 -
Real-Time Object Tracking project link

ITEM - Implementation of Integrated TDMA and E-ASAP Module

responsible people:
- Inderjit Singh, Pavel Beneš, Jiří Trdlika
short description:
- The aim of the project is to design and implement TDMA communication protocol for wireless sensor networks, which integrates the TDMA and E-ASAP (Extended - Adaptive Slot Assignment Protocol).
date
- December/2010 -
ITEM project link

IEEE 802.15.4/ZigBee simulation model

responsible people:
- Jurík Petr
short description:
- A simulation model for IEEE 802.15.4 and ZigBee protocols using Opnet Modeler

date
- February/2007 -
IEEE 802.15.4/ZigBee simulation model project link

WSN sub-projects and tasks

WSN sub-projects and tasks details

Links & References

@@ Line 45: / Line 45: @@
 ==== Parkinson's disease monitoring ====
 * responsible people:
-** Markovi Erik, Auersvald Martin, Kubias Jiří, [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=sprdlo1 Šprdlík Otakar],  [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=jurcikp Jurík Petr], [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=trdlij1 Trdlika Jiří]
+** Markovi Erik, Auersvald Martin, Kubias Jiří, [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=sprdlo1 Šprdlík Otakar],  [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=jurcikp Jurík Petr], [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=trdlij1 Jiří Trdlika]
 * short description:
 ** ''Wireless sensor motes placed on limbs (legs, arms) transmit periodically measured data to a central node for storing and evaluation. Once a day (or in predefined period) data from central node is downloaded to PC or PDA for analysis and computation of feedback in the form of brain stimulation or appropriate dose of medicine.''
@@ Line 54: / Line 54: @@
 ==== Real-Time Object Tracking with Wireless Sensor Networks ====
 * responsible people:
-** Inderjit Singh, [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=trdlij1 Trdlika Jiří]
+** Inderjit Singh, [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=trdlij1  Jiří Trdlika]
 * short description:
 ** '' The aim of the thesis is to design and implement a wireless sensor network for object tracking under real-time constraints, using time division media access (TDMA).''
@@ Line 60: / Line 60: @@
 ** ''February/2007 - ''
 * [[Real-Time_Object_Tracking | Real-Time Object Tracking]] project link
+==== ITEM - Implementation of Integrated TDMA and E-ASAP Module ====
+* responsible people:
+** Inderjit Singh, Pavel Beneš, [http://dce.felk.cvut.cz/pub/staffos.php?jazyk=cz&href=trdlij1 Jiří Trdlika]
+* short description:
+** '' The aim of the project is to design and implement TDMA communication protocol for wireless sensor networks, which integrates the TDMA and E-ASAP (Extended - Adaptive Slot Assignment Protocol).''
+* date
+** ''December/2010 - ''
+* [[ITEM | ITEM]] project link
 ==== IEEE 802.15.4/ZigBee simulation model ====
@@ Line 76: / Line 85: @@
 ----
 ----
 == '''Links & References''' ==
 ==='''HW & SW''' ===

Revision as of 12:41, 12 November 2010

Available WSN hardware

Other possible hardware solutions

WSN Applications

Automotive E-safety System

Parkinson's disease monitoring

Real-Time Object Tracking with Wireless Sensor Networks

ITEM - Implementation of Integrated TDMA and E-ASAP Module

IEEE 802.15.4/ZigBee simulation model

WSN sub-projects and tasks

Links & References

HW & SW

Blogs

Research/Working groups

Standards

Articles