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RE-NetBoot: Resource-Efficient Network Boot for IoT Platform
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The Internet of Things (IoT) platform consists of numerous IoT devices and a small
number ofservers. In order for the platform to operate efficiently and reliably, servers
need to have completecontrol over many IoT devices. The advantage of using network boot
in this environment is thatthe server has control over the device’s boot process. When
applying network boot on an IoT platform,the server needs to be able to handle the
network boot that many IoT devices request. If theserver does not have enough processing
power for the network boot request, IoT device boot wouldbe delayed. In this paper, we
propose a resource-efficient network boot to solve this problem. Theproposed framework
has three mechanism. First, the server reserves the right to control which systemimage
to transfer during the network boot process on the platform. Second, the server
appliesdeduplication to the system image to minimize the amount of data required for
transmission. Third,the server monitors network boot requests and performs file
transfers appropriate to the situation,minimizing time spent on transfers. The proposed
system allows the server to efficiently control numerousIoT devices when using network
boot on the IoT platform.
Centre for Continental Network in Eco-Innovation and Research
Title: RE-NetBoot: Resource-Efficient Network Boot for IoT Platform
Description:
The Internet of Things (IoT) platform consists of numerous IoT devices and a small
number ofservers.
In order for the platform to operate efficiently and reliably, servers
need to have completecontrol over many IoT devices.
The advantage of using network boot
in this environment is thatthe server has control over the device’s boot process.
When
applying network boot on an IoT platform,the server needs to be able to handle the
network boot that many IoT devices request.
If theserver does not have enough processing
power for the network boot request, IoT device boot wouldbe delayed.
In this paper, we
propose a resource-efficient network boot to solve this problem.
Theproposed framework
has three mechanism.
First, the server reserves the right to control which systemimage
to transfer during the network boot process on the platform.
Second, the server
appliesdeduplication to the system image to minimize the amount of data required for
transmission.
Third,the server monitors network boot requests and performs file
transfers appropriate to the situation,minimizing time spent on transfers.
The proposed
system allows the server to efficiently control numerousIoT devices when using network
boot on the IoT platform.
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