TY - CONF
T1 - Towards the design and development of a multinode wireless system for pulsating sensors
AU - Praveen, K.
AU - Arun, A.D.
AU - Sahoo, P.
AU - Murali, N.
AU - Satya Murty, S.A.V.
N1 - Export Date: 19 June 2018
PY - 2013
Y1 - 2013
N2 - The paper presents introduction of wireless connectivity to pulsating sensors, a new class of sensors developed in-house and deployed in many physical and physico-chemical applications. For this a multi-node wireless system has been designed. The present design constitutes a base receiver station and multiple sensor nodes, which form a wireless network. The sensor output, which is in direct digital domain, is processed to obtain pulse frequency, a function of parameter being sensed. It is further sent to the base station by the sensor node. The base station processes the data, displays it to the user and sends it to the PC for further analysis. The base station is realized in FPGA using Softcore processor TSK3000 and peripheral controllers whereas the sensor node is made 'smart and wireless' by implementing microcontroller and wireless module. The wireless system is established using IEEE 802.15.4 standard ZigBee protocol. The present design has been successfully tested for data transmission using Altium Development Board and a multiple number of pulsating sensors of different types up to 75 meter inside the building and 800 meter in open space. ©2013 IEEE.
AB - The paper presents introduction of wireless connectivity to pulsating sensors, a new class of sensors developed in-house and deployed in many physical and physico-chemical applications. For this a multi-node wireless system has been designed. The present design constitutes a base receiver station and multiple sensor nodes, which form a wireless network. The sensor output, which is in direct digital domain, is processed to obtain pulse frequency, a function of parameter being sensed. It is further sent to the base station by the sensor node. The base station processes the data, displays it to the user and sends it to the PC for further analysis. The base station is realized in FPGA using Softcore processor TSK3000 and peripheral controllers whereas the sensor node is made 'smart and wireless' by implementing microcontroller and wireless module. The wireless system is established using IEEE 802.15.4 standard ZigBee protocol. The present design has been successfully tested for data transmission using Altium Development Board and a multiple number of pulsating sensors of different types up to 75 meter inside the building and 800 meter in open space. ©2013 IEEE.
U2 - 10.1109/ICAES.2013.6659403
DO - 10.1109/ICAES.2013.6659403
M3 - Paper
SP - 253
EP - 256
ER -