*Author for correspondence Indian Journal of Science and Technology, Vol 9(36), DOI: 10.17485/ijst/2016/v9i36/97935, September 2016 ISSN (Print) : 0974-6846 ISSN (Online) : 0974-5645 Collisionless Data Transmission to Improve Throughput Using Additive Links On-line Hawaii Area Technique With Timeslot Communication S. Ismail Kalilulah 1* , B. Justus Rabi 2 and Kuldeep Chouhan 3 1 Department of Computer Science and Engineering, St. Peter’s University, Chennai - 600054, Tamil Nadu, India; ismailkalilulah125@gmail.com 2 Department of Computer Science and Engineering, Shri Andal Alagar College of Engineering, Chennai - 603111, Tamil Nadu, India; bennisrobi@rediffmail.com 3 Department of Computer Science and Engineering, St. Mary’s Group of Institutions Hyderabad - 508284, Telangana, India; kuldeep0009@gmail.com Keywords: ALOHA, Collision-less Data, Network Encoding, Throughput Improvement, Timeslot Communication (TSC) Abstract The wireless sensor network forms a topology and transmits data reverse to the information collectors. Objectives: The cost and performance are optimized to check the throughput rate that should improve the data transmission rate. Based on the information flow tracking, the data dependencies among information objects should be reduced. Tags should be associated with input nodes and elevate the processing on output node data. Methods: The method is presented in this paper: the individual nodes communicate with the server in collision free mode and improve the strength of data transmission rate with reliable and compatible data. The network topology control is to uphold the data propagation and improve the network connectivity to provide reliable service. Findings: The network system is evaluated for altering the statistics arrival rate (as percentage) of the server node that arrive each second, and the number of requests waiting in the buffer as demonstrated in graphical presentation. Improvements: ALOHA mechanism is competent technique to synchronize the node intermediate access among the contending nodes in the network. 1. Introduction TSC involve a cluster of nodes communicate in precise timeslots with a node station. In this context, the node topology has issues to maintain the network capacity to attract a bundle of attention. A set of communication links between node pairs used by routing mechanisms, where a network controls the parameters 1 . Te source node dis- seminates a message to reachable node where retransmits every message to the nodes 2 . Every node range requires only one transmission to deliver signifcance to all the nodes in the communication. Conventionally, when a node has a failure, it is usually discarded and the reorga- nized with faultless nodes to continue with the operation without a transaction with the functional coverage of the networks. Te Additive Links On-line Hawaii Area (ALOHA) protocol is an instance of a MAC protocol of the conten- tion which established the Ethernet as presented 3 . It allows to distributed stations to communicate over radio channel and the nodes are used a frequency band for their packet transmissions 4 . It presented the receipt of a packet at the network broadcast makes no collision between a packet from a node and other packet to arrive at the network 5 . Each packet has the address of the destination node that address of the resource device, where a sending node does not available with a reasonable time an acknowledgement for a frame it sent up, that assumes a collision occurred