21 | P age Australian Journal of Information Technology and Communication Volume II Issue I ISSN 2203-2843 Enhancement in Divide and Conquer Scheme to increase the Lifetime of Networks Jagpreet Singh[1], Sarabjit Kaur[2] Computer and Science Engineering, Punjab Technical University Jalandhar, Punjab, India [1] [2] p_randhawa@rocketmail.com er_sarabjit35@rediffmail.com Abstract- Within the last two decades, communication advances have reshaped the way we live our daily lives. Wireless communications has grown from an obscure, unknown service to a ubiquitous technology that serves almost half of the people on Earth. Wireless sensor network consists of sensor nodes which are powered by battery; to communicate with each other for environment monitoring. Energy efficiency is the main issue in wireless sensor networks. From energy conservation perspective in Wireless Sensor Networks (WSNs), clustering of sensor nodes is a challenging task. Clustering technique in routing protocols play a key role to prolong the stability period and lifetime of the network .In this paper, i use a new routing protocol for WSNs. The Divideand-Rule (DR) is based upon static clustering and minimum distance based Cluster Head (CH) selection technique. This technique selects fixed number of CHs in each round instead of probabilistic selection of CH. Simulation results show that DR protocol outperforms its counterpart routing protocols. Keywords- Wireless Sensor Networks (WSNs), Divide and Rule Scheme, Research Methodology and Results. I. INTRODUCTION Wireless Sensor Networks (WSNs) have been widely considered as one of the most important technologies for the twenty-first century. A wireless sensor network is a type of wireless network. A wireless sensor network is a wireless network that made up of a number of sensors node and at least with one base station. In wireless network a collection of nodes organized in a cooperative network. Energy saving is the crucial issue in designing the wireless sensor networks. In order to maximize the lifetime of sensor nodes, it is preferable to distribute the energy dissipated throughout the wireless sensor network. Wireless sensor network has two types-structured and unstructured. In structured wireless sensor network, the all sensor nodes are deployed in pre designed manner. In unstructured a collection of sensor nodes deployed in ad hoc manner into a region. Once deployed, the network is absent unattended perform monitoring and reporting functions. The benefit of structure wireless sensor network is that some nodes can be deployed with lower network maintenance and management cost. Fewer nodes can be deployed at specific locations to provide coverage while ad hoc deployment can have uncovered regions. Sensor nodes are collecting data about environment, after collecting it they process it and then transmit to the base station. Base station provides an interface between user and internet. Basic characteristic of the wireless sensor network are limited energy, dynamic network topology, lower power, node failure, mobility of the nodes, shortrange broadcast communication, multi-hop routing and large scale of deployment. Energy consumption and network life time has been considered as the major issues in wireless sensor network (WSN). In wireless sensor networks the size and cost of the sensor nodes may vary from micro to macro and from one to few hundred dollars respectively. In WSN, the main problem is that the battery cannot be replaced but the main source while sensor nodes sense the data is battery power even sensor nodes also contain such resources which are irreplaceable. So, therefore there is need to design an energy-efficient technique which enhance the lifetime of wireless sensor network. Wireless sensor networks follow some approaches for improving the lifetime of battery like energy-aware technique, multi-hop routing and density control technique but these approaches still need to be improved. On the basis of network structure, routing protocol is divided into three parts: flat routing protocol, Hierarchical routing protocol and location aware. In flat all the nodes have same rules i.e. sensing the environment and sending the data to the base station. So it has very low network lifetime. In hierarchical the low energy nodes sense the environment and high energy nodes used to send the data to the base station. Location based routing can be used in networks where sensor nodes are 22 | P age Australian Journal of Information Technology and Communication Volume II Issue I able to determine their position using a variety of localization system and algorithm. II. RELATED WORK Peyman Neamatollahi et al. [1] explained that clustering is an effective approach for organizing the network into a connected hierarchy, load balancing, and prolonging network lifetime. Clustering protocols in wireless sensor networks are classified into static and dynamic. In static clustering, clusters are formed once, forever and role of the cluster head is scheduled among the nodes in a cluster. However, in dynamic clustering the time is divided into rounds and clustering is performed in the beginning of each round. This paper presents a Hybrid Clustering Approach (HCA). Jakob Salzmann et al. introduced [2] a large wireless sensor networks, low energy consumption is a major challenge. Hence, deployed nodes have to organize themselves as energy efficient as possible to avoid unnecessary sensor and transceiver operations. The energy conserving operations are limited by the task of the network; usually the network has to guarantee complete functionality during its lifetime. The contribution of this paper completes the functionalityaware and energy-efficient clustering algorithm family MASCLE by two Innovative algorithms. K. Latif et. al. [3] have presented routing technique called Divide-and-Rule which is based on static clustering and minimum distance based Cluster Head selection. Network area is logically divided into small regions (clusters). Old fashioned routing techniques such as LEACH, LEACH-C are not as energy efficient as present day clustering techniques such as Divide-and-Rule scheme. The benefit of Divide-and-Rule scheme is that when it is compared with LEACH and LEACH-C this scheme provides better results in terms of stability period, network life time, area coverage and throughput. But the limitation of this scheme is that during routing each node in Os region sends its data to Primary level Cluster Heads which then forwards the aggregated data to the secondary level Cluster Head present in the Ms, Secondary level Cluster Heads then, aggregate all collected data and forward it to Base Station which will lead to more energy consumption of CH nodes present in the Middle Square and Inner Square regions which may lead to energy hole and may cause data routing problems. Basilis Mamalis et.al [4] describes the concept of Clustering and described various design challenges of clustering in Wireless Sensor networks. The paper also describes various clustering Protocols including Probabilistic Clustering Approaches and Non- ISSN 2203-2843 Probabilistic Clustering Approaches. The algorithms discussed in these protocols consider periodically reelection of Cluster Heads (rotation of Cluster Head role) among all nodes. The main drawback of these algorithms is that the time complexity of these algorithms is difficult to be kept low as the size of the Wireless sensor Networks becomes larger and larger, the extension in multi-hop communication patterns is unavoidable which increases the routing path. Kiran Maraiya et.al [5] has presented an overview of wireless sensor network, how wireless sensor networks works and various applications of wireless sensor networks. In this paper it has been described that characteristics of wireless sensor network are dynamic network topology, lower power, node failure and mobility of nodes, short-range broadcast communication and multi-hop routing and large scale of deployment. But low power of sensor nodes is one of the limitation of wireless sensor network as in harsh environments it is difficult to replace sensor nodes so low power may cause energy hole in wireless sensor networks. Also multi-hop routing may cause more nodes deplete their energy while routing as compared to single hop routing. III. DIVIDE AND CONQUER SCHEME 3.1 Background Spatially dispersed wireless sensor nodes and one or more Base Stations (BSs) are embodied to form WSN. Sensor nodes keep an eye on the physical or environmental conditions at different locations, and communicate efficiently with BS. Typically, all the nodes equipped with low power whereas base station occupy high power. Applications of WSNs are in defense monitoring operations, predicting environment conditions, traffic control, health applications etc. Today’s research challenge in WSNs is coping with low power communication. Routing protocols in this regard plays a key role in efficient energy utilization. In sending data from node to BS, selection of a specific route, which tends to minimize the energy consumption, is necessary. Old fashioned routing techniques are not as energy efficient as present day clustering techniques. LEACH, LEACH-Centralized and Multi-hop. LEACH are few of the earlier techniques of cluster based routing protocols for WSNs. Basically two types of clustering techniques exist; static clustering and dynamic clustering. Clusters once established and never be changed throughout network operation are known as static clusters, while clusters based on some sort of network characteristics and are changing during network operation are known as dynamic clusters. 23 | P • • • age Australian Journal of Information Technology and Communication Volume II Issue I 3.2 Introduction Divide-and-Rule scheme [3] is based on static clustering and minimum distance based Cluster Head selection. Network area is logically divided into small regions (clusters). The beauty of this technique is the formation of square and rectangular regions, which divides the network field into small regions, as a result the communication distance for intra cluster and inter cluster reduces. a.) Formation of regions: In first step, network is divided into n equal distant concentric squares. For simplicity, take n = 3 here therefore, network is divided into three equal distance concentric squares: Internal square (Is), Middle square (Ms) and Outer square (Os). BS is located in the centre of network field therefore; its coordinates are taken as reference point for formation of concentric squares. Division of network field into concentric squares can be obtained from following equations: Coordinates of top right corner of Is, Tr (Is) Tr (Is) = (Cp(x) + d, Cp(y) + d) (1) Coordinates of bottom right corner of Is, Br (Is) Br (Is) = (Cp(x) + d, Cp(y) (2) − d) Coordinates of top left corner of Is, Tl (Is) Tl (Is) = (Cp(x) − d, Cp(y) (3) + d) Coordinates of bottom left corner of Is, Bl (Is) Bl (Is) = (Cp(x) − d, Cp(y) − d) (4) Where, d is the factor of distance from center of network to boundary of Is value of d for Ms and Os increases with a multiple of 2 and 3 respectively. If there are n number of concentric squares then the coordinates of nth square can be found, Sn from the following equations. Tr (Sn) = (Cp(x) + dn, Cp(y) + dn) (5) Br(S n) = (Cp(x) + dn, Cp(y) − dn) (6) Tl(S n) = (Cp(x) − dn, Cp(y) + dn) (7) Bl(S n) = (Cp(x) − dn, Cp(y) − dn) (8) • In the second step, the area is divided into two concentric squares into equal area quadrilaterals; latter is named as Corner Regions (CR) and Non-Corner Regions (NCR). ISSN 2203-2843 Fig 3.1 Divide and Rule regions formation IV. RESEARCH METHODOLOGY The communication between sensor nodes to sink is based upon multi-hop communication. The power of the sensor nodes positioned near the base station will exhaust very fast as compared to those that are far away from inner region. This happens because all the transmissions done through sensor-to-sink paths, heavier load and therefore consume more energy which ruin network performance. Researchers have developed many energy models but these models still need to be improved. Clustering technique in routing protocols plays an important role to increase the throughput, stability period and network lifetime. Divide and Rule is one of the scheme which based on static clustering and it is a energy efficient routing protocol for wireless sensor network. The sensor nodes which are placed near base station communicate with base station and intermediate nodes nevertheless utilize more energy. The communication stops when batteries of the nodes near sink dead. Because base station can communicate with nodes placed in the other regions only with the help of nodes located near it. To overcome with this problem relay nodes will be introduced in the inner region, which have minimum resource and high battery power. In the planned work, we will place N number of relay nodes in the inner region to communicate with the nodes in middle and outer region. V. SIMULATION RESULTS With the help of Network Simulation (NS-2) we generated the network with 41 nodes. The simulation result has been taken out in the NS-2 tool. There are number of packets shown on y-axis and time is given on x-axis in seconds. 24 | P age Australian Journal of Information Technology and Communication Volume II Issue I ISSN 2203-2843 Fig 5.1 Delay The fig. 5.1 shows the experimental results of Delay of packets. Which are very less as compared to previous author’s result. Fig 5.3 Throughput The fig.5. 3 show the experimental results of throughput. VI. CONCLUSION Fig 5.2 Packet Loss The fig. 5.2 shows the experimental results of Packet loss. For the packet loss the experimental results of the proposed novel technique are better than the existing technique. With decreasing costs and advancing network lifetime of Wireless Sensor Networks the number of potential application areas is on the rise. To achieve both, energy conserving communication techniques become increasingly important and are in fact subject to many present research projects. DR Scheme uses static clustering and minimum distance based CH selection. We have used a two level hierarchy for inter cluster communication. The beauty of our technique is the formation of square and rectangular regions, which divides the network field into small regions, as a result the communication distance for intra cluster and inter cluster reduces. However CR nodes associate with CH or BS depending on the minimum distance. Characteristics of achieving optimum number of CHs in each round and hierarchical inter CHs communication of our technique provided better results than its counterparts, in terms of delay, energy consumption, packet loss and throughput. However, large network area and greater number of nodes decrease DR efficiency in terms of energy consumption. ACKNOWLEGEMENT I would like to place on record my deep sense of gratitude to Er. Sarabjit Kaur for her generous guidance, help and useful suggestions and supervision throughout the course of research work. 25 | P age Australian Journal of Information Technology and Communication Volume II Issue I REFERENCES [1] Peyman Neamatollahi, Hoda Taheri, Mahmoud Naghibzadeh “A Hybrid Clustering Approach for Prolonging Lifetime in Wireless Sensor Networks” International Symposium on computer networks and distributed systems (CNDS), pp. 170 – 174, 2011 IEEE. [2] Jakob Salzmann, Ralf Behnke, Dirk Timmermann “Hex-MASCLE – Hexagon based Clustering with Self-Healing Abilities” Wireless Communications and Networking Conference (WCNC), pp. 528-533, 2011 IEEE. [3] K. Latif, A.Ahmad, N.Javaid, Z.A. Khan, N. Alrajeh (2013), “Divide-and-Rule Scheme for Energy Efficient Routing in Wireless Sensor Networks” 4th International Conference on Ambient Systems, Networks and Technologies (ANT), pp. 340-347. [4] B. Mamalis, D. Gavalas, C. Konstantopoulos and G. 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