Abstract
Objectives: In this Paper a generic approach of ISM band channel scanner design module is proposed to identify available free white spaces to utilize under secondary communication network. Method/Analysis: The feature of opportunistic spectrum access (OSA) is to identify free channel to deployment purpose, the channel is compared on the basis of RSSI level individually amongst total available channel were in normally 80% channel are mostly vacant due to dominating nature of channel. The output of the OSA based ISM band channel brings a free channel identification and noise free path to continue communication in between other ISP. Findings: The result indicates that the available channels are having bunch of availability of total 14 no of channels in general. In which channel no 1-6 and 11 are comes under high dominating index ratio. The channel always forcing every new SSID/service provider to accommodate in between these three channels only; due to this a normal channel Co-channel conjunction/Interference occurs in crowed area. This may lead to call/request lost data packets in bulk! As a result users always share more data beyond a normal, causing more power consumption/ battery in cell phone/laptop. So for channel identification OSA technique is implemented which is actually determines dynamic spectrum access by comparing received power in –dB on -90dB to -20dB range were on results comparison above -50dB range signal is mostly having week strength/the origin of base channel is on far distance to other nearby channels. Once the low signal channel or non operational channel is detected it effectively deployed for secondary user network communication. Novelty/Improvements: In this novel design, portable OSA channel estimator-indicator is actively scanned in real time in live data fields; in future it helps to bi-pass the used channel to remove interference.
Highlights
1.1 Mode of DesignIn wireless communication a day’s there are many wireless devices available on the market that broadcast in the 2.4GHz spectrum including Bluetooth, 802.11a/b Ethernet Wi-Fi, Zigbee, wireless USB, cordless phones, wireless mice and keyboards and the microwave oven
The ISM band is one of the most popular destinations for wireless standards for many reasons, one of which is the fact that it is a license-free band and opens to access any wireless device
It is a free-to-use kind of band, there are regulations and rules to be followed, and those rules are designed by the FCC to ensure fairness and innovation by the wireless devices
Summary
1.1 Mode of DesignIn wireless communication a day’s there are many wireless devices available on the market that broadcast in the 2.4GHz spectrum including Bluetooth, 802.11a/b Ethernet Wi-Fi, Zigbee, wireless USB, cordless phones, wireless mice and keyboards and the microwave oven. The problem occurred when it is getting a bit crowded in this band, especially for the people that live in a built up urban area. It is because; 2.4GHz band is over and over again filled with the transmission of many different devices, all challenging for precious space and each one of it trying to make its signal heard above the noise. The reason of this problem was because the ISM band was an unlicensed band for many communications.
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