Transmission Control Protocol (TCP) is the most\r\nreliable protocol. That was previously introduced for wired\r\nnetworks only. Lately the TCP started to act poorly for\r\nseveral factors due to the advent of wireless network. The\r\nrepresented factors which need to be addressed are recovery\r\nmechanism, backup mechanism, mobility, congestion\r\nwindow and maximum packet size. Based on existing\r\nvariants, new were introduced. The most two debated\r\nvariants are Vegas and Westwood which motivated many\r\nresearches. However, the number of studies proved that\r\nVegas could perform more efficiency than other variants\r\nduring the congested network whereas Westwood could\r\nconsume less bandwidth. Hence, in our previous\r\npublications, we already proved by integrating some features\r\nof Vegas and Westwood to get better and more stable\r\nvariant even in high congested network. It is called TCP\r\nUniversity of Bridgeport (TCP-UB). Based on a previous simulation, TCP-UB proved a high\r\nefficiency, less bandwidth consumption and stability from\r\nstatic and mobility point of view. Therefore, in this paper\r\nwe are using NS2 simulator to perform TCP-UB over\r\nwireless mesh network supported with manhattan mobility\r\nmodel. It provides robust and faster transmission service\r\namong several police stations in Connecticut, USA.\r\nFurthermore, we are comparing TCP-UB with Vegas and\r\nWestwood from a static and mobility point of view based on\r\nbandwidth consumption and congestion window scenario.\r\nOn the basis of findings, we validate that TCP-UB is also\r\nbetter performer even over wireless mesh network..
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