2013 International Conference on Advances in Computing, Communications and Informatics (ICACCI), 2013
In delay sensitive applications of wireless sensor network, it is required to monitor the situati... more In delay sensitive applications of wireless sensor network, it is required to monitor the situation continuously with the sensors. The continuous monitoring operation results in more energy consumption of the sensor nodes. If the delay in data processing and it's communication from one node to other is more, then energy requirement may increase. In most of the situations, it is difficult to replace the battery of a sensor node, after the deployment of node in the network. The efficient energy management and low latency are the important issue in such applications as they affect the life of network. Many protocols are suggested by various researchers for energy efficient data process and minimum latency in sensor networks. There are limitations in existing protocols as they are particularly designed either for energy efficiency or minimum latency or for both. This paper presents the new protocol to overcome some of the existing protocol's limitations. In this paper, a concept of distance metric based routing protocol approach is explored, for `high energy efficiency' and `shortest path selection' for latency improvement. The proposed new protocol is `Dynamic Energy Efficient Latency Improving Protocol (DEELIP)'. The simulation results are compared with `AODV' routing protocol. It is observed that in proposed protocol; the overhead of the network traffic is reduced, resulting in improvement of energy efficiency and latency than existing routing protocols.
Basically Radio is Wireless transmission of signals, by modulation of EM waves with frequencies b... more Basically Radio is Wireless transmission of signals, by modulation of EM waves with frequencies below those of visible light. And Software Radio (SR) is an ideal radio directly samples the antenna output. On this line Cognitive Radio (CR) can be define as a radio combines an SR with a Personal Digital Assistant (PDA).
In delay sensitive applications of wireless sensor network, it is required to monitor the situati... more In delay sensitive applications of wireless sensor network, it is required to monitor the situation continuously with the sensors. The continuous operation and processing delay, may contribute latency in data communication. This results in more energy consumption of the sensor nodes. It is difficult to replace the battery of a sensor node, after the deployment in the network. The efficient energy management and low latency are the important issues in delay sensitive applications as they affect the life of network. There are some limitations in existing routing protocols as they are particularly designed either for energy efficiency or minimum latency. This paper presents the new protocol to overcome some drawbacks of the existing protocols. A concept of distance metric based routing is explored for shortest routing path selection. This helps to reduce the overhead of the network traffic, which results in improvement of energy efficiency and latency. The simulation results are compared with standard ‘AODV’ routing protocol. It is observed that, this ‘Dynamic Energy Efficient and Latency Improving Protocol’ will be very much suitable for wireless sensor networks in industrial control applications.
The advancements in large scale integrated technology and communication technologies have resulte... more The advancements in large scale integrated technology and communication technologies have resulted in the development of low cost and small size wireless sensors. They can be even injected into human body for health care. This development has put enormous impact on medical healthcare scenario. It became easily possible to replace the traditional equipments and procedures with small sized sensors. Wireless Sensor Networks is very much useful in various 'Medicare' applications. The involvement of Wireless Sensors provides all-time monitoring to the user and either avoids the dangerous situation or is capable to take appropriate actions in case of emergency. This paper provides an overview of the challenges in the design of wireless sensor networks for medical applications. The major design challenges such as delay, security, privacy, accuracy and reliability of data, in these applications are explored with appropriate solutions.
The advancements in large scale integrated technology and communication technologies have resulte... more The advancements in large scale integrated technology and communication technologies have resulted in the development of low cost and small size wireless sensors. They can be even injected into human body for health care. This development has put enormous impact on medical healthcare scenario. It became easily possible to replace the traditional equipments and procedures with small sized sensors. Wireless Sensor Networks is very much useful in various ‘Medicare’ applications. The involvement of Wireless Sensors provides all-time monitoring to the user and either avoids the dangerous situation or is capable to take appropriate actions in case of emergency. This paper provides an overview of the challenges in the design of wireless sensor networks for medical applications. The major design challenges such as delay, security, privacy, accuracy and reliability of data, in these applications are explored with appropriate solutions.
The technological development in Wireless Sensor Networks made it possible to use in monitoring a... more The technological development in Wireless Sensor Networks made it possible to use in monitoring and
control of greenhouse parameter in precision agriculture. In last decades there have been tremendous
advancements in technology for agriculture and growth of final yield. Due to uneven natural distribution
of rain water it is very crucial for farmers to monitor and control the equal distribution of water to all
crops in the whole farm or as per the requirement of the crop. There is no ideal irrigation method
available which may be suitable for all weather conditions, soil structure and variety of crops cultures.
Green house technology may be the best solution for this solution. All the parameters of greenhouse
require a detailed analysis in order to choose the correct method. It is observed that farmers have to
bear huge financial loss because of wrong prediction of weather and incorrect irrigation method to crops.
In this contest with the evolution in wireless sensor technologies and miniaturized sensor devices, it is
possible to uses them for automatic environment monitoring and controlling the parameters of
greenhouse, for Precision Agriculture (PA) application. In this paper, we have proposed and analyse the
use of Programmable System on Chip Technology (PSoC) as a part of Wireless Sensor Networks (WSN)
to monitor and control various parameter of green house.
In delay sensitive applications of wireless sensor
network, it is required to monitor the situa... more In delay sensitive applications of wireless sensor
network, it is required to monitor the situation continuously
with the sensors. The continuous monitoring operation results in
more energy consumption of the sensor nodes. If the delay in
data processing and communication from one node to other is
more, then energy requirement may increase. In most of the
situations, it is difficult to replace the battery of a sensor node,
after the deployment of node in the network. The efficient
energy management and low latency are the important issue in
such applications as they affect the life of network. Many
protocols are suggested by various researchers for energy
efficient data process and minimum latency in sensor networks.
There are limitations in existing protocols as they are
particularly designed either for energy efficiency or minimum
latency or for both. This paper presents the new protocol to
overcome some of the existing protocols drawback.
In this paper, a concept of distance metric based routing
protocol is explored for shortest path selection. It is observed
that this approach is useful for high energy efficiency and
latency improvement. The proposed new protocol is ‘Dynamic
Energy Efficient Latency Improving Protocol (DEELIP)’. The
simulation results are compared with standard AODV routing
protocol. In proposed protocol, the overhead of the network
traffic is drastically reduced, which results in improvement of
energy efficiency and latency than existing routing protocols.
ABSTRACT In this paper it is to be highlighted that, the functionality of D.C. motor in combinati... more ABSTRACT In this paper it is to be highlighted that, the functionality of D.C. motor in combination with photo devices to work as stepper motor. The heart of this system is a photo device as they have fast response, low cost, compactness and compatibility. The D.C.motor with simple additional gear arrangement and simple feedback system, which can be control by simple microprocessor with short instructions, can work as a stepper motor. In this arrangement it observed that this combination gives comparatively better performance than a stepper motor as low cost, small step angle, less weight, better torque characteristics, low power requirement, etc. So, this can be the most efficient solution in the future of smart Intelligent Industrial and Robotic control, if simple modification is made on the limitations such as brush maintenance, noise of gears and inertia problem of big DC motors by using brushless DC motor, by using the helical gear train and by special electrical and mechanical modifications respectively.
The delay sensitive industrial control applications like
Industrial process control, Environmen... more The delay sensitive industrial control applications like
Industrial process control, Environmental control, Gas leakage
monitoring, etc. in this a reliable communication between sensor
and base station are highly essential. Wireless Sensor Networks
(WSN) becomes an immensely popular technology in such
application as it offers low latency and high energy-efficiency in
message transmission. Life span of the network can be extended
by using appropriate energy efficient routing protocol. The three
standard routing protocols, namely Ad-hoc On-Demand Distance
Vector, Destination Sequence Distance Vector and Ad-hoc On-demand Multipath Distance Vector have been analyzed. In this
work we have proposed multi-sink model to compare with
conventional single sink model. We have designed probabilistic
model to compare transmission delay in these two models. They
are also compared with IEEE802.11 and IEEE802.15.4 MAC
protocol. The proposed WSN model is analyzed by estimating
end-to-end delay, energy consumption and packet drop ratio of
both models. NS-2 simulator is used for result analysis in
different traffic conditions. The Quality of Service can be
improved by minimizing delay in packet delivery of the network.
It has been observed that overall delay can be minimized
significantly in proposed model.
2013 International Conference on Advances in Computing, Communications and Informatics (ICACCI), 2013
In delay sensitive applications of wireless sensor network, it is required to monitor the situati... more In delay sensitive applications of wireless sensor network, it is required to monitor the situation continuously with the sensors. The continuous monitoring operation results in more energy consumption of the sensor nodes. If the delay in data processing and it's communication from one node to other is more, then energy requirement may increase. In most of the situations, it is difficult to replace the battery of a sensor node, after the deployment of node in the network. The efficient energy management and low latency are the important issue in such applications as they affect the life of network. Many protocols are suggested by various researchers for energy efficient data process and minimum latency in sensor networks. There are limitations in existing protocols as they are particularly designed either for energy efficiency or minimum latency or for both. This paper presents the new protocol to overcome some of the existing protocol's limitations. In this paper, a concept of distance metric based routing protocol approach is explored, for `high energy efficiency' and `shortest path selection' for latency improvement. The proposed new protocol is `Dynamic Energy Efficient Latency Improving Protocol (DEELIP)'. The simulation results are compared with `AODV' routing protocol. It is observed that in proposed protocol; the overhead of the network traffic is reduced, resulting in improvement of energy efficiency and latency than existing routing protocols.
Basically Radio is Wireless transmission of signals, by modulation of EM waves with frequencies b... more Basically Radio is Wireless transmission of signals, by modulation of EM waves with frequencies below those of visible light. And Software Radio (SR) is an ideal radio directly samples the antenna output. On this line Cognitive Radio (CR) can be define as a radio combines an SR with a Personal Digital Assistant (PDA).
In delay sensitive applications of wireless sensor network, it is required to monitor the situati... more In delay sensitive applications of wireless sensor network, it is required to monitor the situation continuously with the sensors. The continuous operation and processing delay, may contribute latency in data communication. This results in more energy consumption of the sensor nodes. It is difficult to replace the battery of a sensor node, after the deployment in the network. The efficient energy management and low latency are the important issues in delay sensitive applications as they affect the life of network. There are some limitations in existing routing protocols as they are particularly designed either for energy efficiency or minimum latency. This paper presents the new protocol to overcome some drawbacks of the existing protocols. A concept of distance metric based routing is explored for shortest routing path selection. This helps to reduce the overhead of the network traffic, which results in improvement of energy efficiency and latency. The simulation results are compared with standard ‘AODV’ routing protocol. It is observed that, this ‘Dynamic Energy Efficient and Latency Improving Protocol’ will be very much suitable for wireless sensor networks in industrial control applications.
The advancements in large scale integrated technology and communication technologies have resulte... more The advancements in large scale integrated technology and communication technologies have resulted in the development of low cost and small size wireless sensors. They can be even injected into human body for health care. This development has put enormous impact on medical healthcare scenario. It became easily possible to replace the traditional equipments and procedures with small sized sensors. Wireless Sensor Networks is very much useful in various 'Medicare' applications. The involvement of Wireless Sensors provides all-time monitoring to the user and either avoids the dangerous situation or is capable to take appropriate actions in case of emergency. This paper provides an overview of the challenges in the design of wireless sensor networks for medical applications. The major design challenges such as delay, security, privacy, accuracy and reliability of data, in these applications are explored with appropriate solutions.
The advancements in large scale integrated technology and communication technologies have resulte... more The advancements in large scale integrated technology and communication technologies have resulted in the development of low cost and small size wireless sensors. They can be even injected into human body for health care. This development has put enormous impact on medical healthcare scenario. It became easily possible to replace the traditional equipments and procedures with small sized sensors. Wireless Sensor Networks is very much useful in various ‘Medicare’ applications. The involvement of Wireless Sensors provides all-time monitoring to the user and either avoids the dangerous situation or is capable to take appropriate actions in case of emergency. This paper provides an overview of the challenges in the design of wireless sensor networks for medical applications. The major design challenges such as delay, security, privacy, accuracy and reliability of data, in these applications are explored with appropriate solutions.
The technological development in Wireless Sensor Networks made it possible to use in monitoring a... more The technological development in Wireless Sensor Networks made it possible to use in monitoring and
control of greenhouse parameter in precision agriculture. In last decades there have been tremendous
advancements in technology for agriculture and growth of final yield. Due to uneven natural distribution
of rain water it is very crucial for farmers to monitor and control the equal distribution of water to all
crops in the whole farm or as per the requirement of the crop. There is no ideal irrigation method
available which may be suitable for all weather conditions, soil structure and variety of crops cultures.
Green house technology may be the best solution for this solution. All the parameters of greenhouse
require a detailed analysis in order to choose the correct method. It is observed that farmers have to
bear huge financial loss because of wrong prediction of weather and incorrect irrigation method to crops.
In this contest with the evolution in wireless sensor technologies and miniaturized sensor devices, it is
possible to uses them for automatic environment monitoring and controlling the parameters of
greenhouse, for Precision Agriculture (PA) application. In this paper, we have proposed and analyse the
use of Programmable System on Chip Technology (PSoC) as a part of Wireless Sensor Networks (WSN)
to monitor and control various parameter of green house.
In delay sensitive applications of wireless sensor
network, it is required to monitor the situa... more In delay sensitive applications of wireless sensor
network, it is required to monitor the situation continuously
with the sensors. The continuous monitoring operation results in
more energy consumption of the sensor nodes. If the delay in
data processing and communication from one node to other is
more, then energy requirement may increase. In most of the
situations, it is difficult to replace the battery of a sensor node,
after the deployment of node in the network. The efficient
energy management and low latency are the important issue in
such applications as they affect the life of network. Many
protocols are suggested by various researchers for energy
efficient data process and minimum latency in sensor networks.
There are limitations in existing protocols as they are
particularly designed either for energy efficiency or minimum
latency or for both. This paper presents the new protocol to
overcome some of the existing protocols drawback.
In this paper, a concept of distance metric based routing
protocol is explored for shortest path selection. It is observed
that this approach is useful for high energy efficiency and
latency improvement. The proposed new protocol is ‘Dynamic
Energy Efficient Latency Improving Protocol (DEELIP)’. The
simulation results are compared with standard AODV routing
protocol. In proposed protocol, the overhead of the network
traffic is drastically reduced, which results in improvement of
energy efficiency and latency than existing routing protocols.
ABSTRACT In this paper it is to be highlighted that, the functionality of D.C. motor in combinati... more ABSTRACT In this paper it is to be highlighted that, the functionality of D.C. motor in combination with photo devices to work as stepper motor. The heart of this system is a photo device as they have fast response, low cost, compactness and compatibility. The D.C.motor with simple additional gear arrangement and simple feedback system, which can be control by simple microprocessor with short instructions, can work as a stepper motor. In this arrangement it observed that this combination gives comparatively better performance than a stepper motor as low cost, small step angle, less weight, better torque characteristics, low power requirement, etc. So, this can be the most efficient solution in the future of smart Intelligent Industrial and Robotic control, if simple modification is made on the limitations such as brush maintenance, noise of gears and inertia problem of big DC motors by using brushless DC motor, by using the helical gear train and by special electrical and mechanical modifications respectively.
The delay sensitive industrial control applications like
Industrial process control, Environmen... more The delay sensitive industrial control applications like
Industrial process control, Environmental control, Gas leakage
monitoring, etc. in this a reliable communication between sensor
and base station are highly essential. Wireless Sensor Networks
(WSN) becomes an immensely popular technology in such
application as it offers low latency and high energy-efficiency in
message transmission. Life span of the network can be extended
by using appropriate energy efficient routing protocol. The three
standard routing protocols, namely Ad-hoc On-Demand Distance
Vector, Destination Sequence Distance Vector and Ad-hoc On-demand Multipath Distance Vector have been analyzed. In this
work we have proposed multi-sink model to compare with
conventional single sink model. We have designed probabilistic
model to compare transmission delay in these two models. They
are also compared with IEEE802.11 and IEEE802.15.4 MAC
protocol. The proposed WSN model is analyzed by estimating
end-to-end delay, energy consumption and packet drop ratio of
both models. NS-2 simulator is used for result analysis in
different traffic conditions. The Quality of Service can be
improved by minimizing delay in packet delivery of the network.
It has been observed that overall delay can be minimized
significantly in proposed model.
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Papers by Dr. Dilip Chaudhary
control of greenhouse parameter in precision agriculture. In last decades there have been tremendous
advancements in technology for agriculture and growth of final yield. Due to uneven natural distribution
of rain water it is very crucial for farmers to monitor and control the equal distribution of water to all
crops in the whole farm or as per the requirement of the crop. There is no ideal irrigation method
available which may be suitable for all weather conditions, soil structure and variety of crops cultures.
Green house technology may be the best solution for this solution. All the parameters of greenhouse
require a detailed analysis in order to choose the correct method. It is observed that farmers have to
bear huge financial loss because of wrong prediction of weather and incorrect irrigation method to crops.
In this contest with the evolution in wireless sensor technologies and miniaturized sensor devices, it is
possible to uses them for automatic environment monitoring and controlling the parameters of
greenhouse, for Precision Agriculture (PA) application. In this paper, we have proposed and analyse the
use of Programmable System on Chip Technology (PSoC) as a part of Wireless Sensor Networks (WSN)
to monitor and control various parameter of green house.
network, it is required to monitor the situation continuously
with the sensors. The continuous monitoring operation results in
more energy consumption of the sensor nodes. If the delay in
data processing and communication from one node to other is
more, then energy requirement may increase. In most of the
situations, it is difficult to replace the battery of a sensor node,
after the deployment of node in the network. The efficient
energy management and low latency are the important issue in
such applications as they affect the life of network. Many
protocols are suggested by various researchers for energy
efficient data process and minimum latency in sensor networks.
There are limitations in existing protocols as they are
particularly designed either for energy efficiency or minimum
latency or for both. This paper presents the new protocol to
overcome some of the existing protocols drawback.
In this paper, a concept of distance metric based routing
protocol is explored for shortest path selection. It is observed
that this approach is useful for high energy efficiency and
latency improvement. The proposed new protocol is ‘Dynamic
Energy Efficient Latency Improving Protocol (DEELIP)’. The
simulation results are compared with standard AODV routing
protocol. In proposed protocol, the overhead of the network
traffic is drastically reduced, which results in improvement of
energy efficiency and latency than existing routing protocols.
Industrial process control, Environmental control, Gas leakage
monitoring, etc. in this a reliable communication between sensor
and base station are highly essential. Wireless Sensor Networks
(WSN) becomes an immensely popular technology in such
application as it offers low latency and high energy-efficiency in
message transmission. Life span of the network can be extended
by using appropriate energy efficient routing protocol. The three
standard routing protocols, namely Ad-hoc On-Demand Distance
Vector, Destination Sequence Distance Vector and Ad-hoc On-demand Multipath Distance Vector have been analyzed. In this
work we have proposed multi-sink model to compare with
conventional single sink model. We have designed probabilistic
model to compare transmission delay in these two models. They
are also compared with IEEE802.11 and IEEE802.15.4 MAC
protocol. The proposed WSN model is analyzed by estimating
end-to-end delay, energy consumption and packet drop ratio of
both models. NS-2 simulator is used for result analysis in
different traffic conditions. The Quality of Service can be
improved by minimizing delay in packet delivery of the network.
It has been observed that overall delay can be minimized
significantly in proposed model.
control of greenhouse parameter in precision agriculture. In last decades there have been tremendous
advancements in technology for agriculture and growth of final yield. Due to uneven natural distribution
of rain water it is very crucial for farmers to monitor and control the equal distribution of water to all
crops in the whole farm or as per the requirement of the crop. There is no ideal irrigation method
available which may be suitable for all weather conditions, soil structure and variety of crops cultures.
Green house technology may be the best solution for this solution. All the parameters of greenhouse
require a detailed analysis in order to choose the correct method. It is observed that farmers have to
bear huge financial loss because of wrong prediction of weather and incorrect irrigation method to crops.
In this contest with the evolution in wireless sensor technologies and miniaturized sensor devices, it is
possible to uses them for automatic environment monitoring and controlling the parameters of
greenhouse, for Precision Agriculture (PA) application. In this paper, we have proposed and analyse the
use of Programmable System on Chip Technology (PSoC) as a part of Wireless Sensor Networks (WSN)
to monitor and control various parameter of green house.
network, it is required to monitor the situation continuously
with the sensors. The continuous monitoring operation results in
more energy consumption of the sensor nodes. If the delay in
data processing and communication from one node to other is
more, then energy requirement may increase. In most of the
situations, it is difficult to replace the battery of a sensor node,
after the deployment of node in the network. The efficient
energy management and low latency are the important issue in
such applications as they affect the life of network. Many
protocols are suggested by various researchers for energy
efficient data process and minimum latency in sensor networks.
There are limitations in existing protocols as they are
particularly designed either for energy efficiency or minimum
latency or for both. This paper presents the new protocol to
overcome some of the existing protocols drawback.
In this paper, a concept of distance metric based routing
protocol is explored for shortest path selection. It is observed
that this approach is useful for high energy efficiency and
latency improvement. The proposed new protocol is ‘Dynamic
Energy Efficient Latency Improving Protocol (DEELIP)’. The
simulation results are compared with standard AODV routing
protocol. In proposed protocol, the overhead of the network
traffic is drastically reduced, which results in improvement of
energy efficiency and latency than existing routing protocols.
Industrial process control, Environmental control, Gas leakage
monitoring, etc. in this a reliable communication between sensor
and base station are highly essential. Wireless Sensor Networks
(WSN) becomes an immensely popular technology in such
application as it offers low latency and high energy-efficiency in
message transmission. Life span of the network can be extended
by using appropriate energy efficient routing protocol. The three
standard routing protocols, namely Ad-hoc On-Demand Distance
Vector, Destination Sequence Distance Vector and Ad-hoc On-demand Multipath Distance Vector have been analyzed. In this
work we have proposed multi-sink model to compare with
conventional single sink model. We have designed probabilistic
model to compare transmission delay in these two models. They
are also compared with IEEE802.11 and IEEE802.15.4 MAC
protocol. The proposed WSN model is analyzed by estimating
end-to-end delay, energy consumption and packet drop ratio of
both models. NS-2 simulator is used for result analysis in
different traffic conditions. The Quality of Service can be
improved by minimizing delay in packet delivery of the network.
It has been observed that overall delay can be minimized
significantly in proposed model.