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"ABSTRAKTesis ini adalah analisa konsumsi energi jaringan sensor nirkabel pada metode penyebaran yang berbeda dan protokol routing yang berbeda. Jaringan Sensor Nirkabel (JSN) muncul dengan banyak aplikasi, karena kemajuan komunikasi nirkabel dalam skala besar. Jaringan ini digunakan untuk melayani aplikasi objek tunggal, dengan persyaratan optimasi tinggi seperti penghematan daya. Masalah desain JSN adalah kompleksitas tinggi, dan membutuhkan metodologi yang kuat, termasuk dukungan simulasi. Pada tesis ini menggunakan NS2 sebagai program simulasi untuk model pengujian konsumsi energi. Pada tesis ini dibandingkan konsumsi energi pada tiga metode penyebaran yang berbeda dari JSN. Metode penyebaran ini mengacu pada topologi penyebaran. Dalam simulasi ini, disebarkan JSN dengan topologi grid, array, dan Random. Simulasi ini menggunakan jumlah node yang berbeda dari JSN untuk menunjukkan skalabilitasnya. Serta menggunakan AODV dan DSR sebagai protokol routing dan CBR sebagai lalu-lintas paket data. Setelah itu, membandingkan konsumsi energi yang dikonsumsi oleh jaringan tersebut. Berdasarkan hasil simulasi, topologi penyebaran random dengan protokol routing DSR adalah topologi terendah dengan konsumsi energinya 7.02% dibanding grid-DSR 7,34% dan array-DSR 7,99%, array-AODV 18,64% dibanding grid-AODV 27,30% dan random-AODV 31,71%. Kombinasi topologi penyebaran random dengan protokol routing DSR konsumsi energinya paling sedikit.

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ABSTRACTThis thesis is analysis of energy consumption the wireless sensor network at different deployment methods and different routing protocol. Wireless Sensor Networks (WSN) is emerging with many applications, because of the advances in large scale wireless communications. These networks are deployed to serve single objective application, with high optimization requirements such as power saving. The WSN design problem is of high complexity, and requires robust methodologies, including simulation support. This tesis uses NS2 as simulation program for the energy consumption testing model. In this tesis compare the energy consumption on three different deployment methods of WSN. These deployment methods refer to topology deployment. In this simulation, deployed WSN on grid, array, and random topology. This simulation uses a different numbers of WSN nodes for showing the scalability. And using AODV and DSR as routing protocol and CBR as the data packet traffic. After that, compare the energy consumption that consume by that network. Based on simulation result, the random deployment topology with DSR routing protocol is the topology of the lowest energy consumption of 7.02% than grid-DSR 7.34% and array-DSR 7.99%; array-AODV 18.64%, grid-AODV 27.30% and random-AODV 31.71%. The combination of random deployment topology with DSR routing protocol energy consumption at least."

"Indonesia merupakan negara dengan komposisi lautan yang sangat luas dibandingkan dengan daratannya, oleh karena itu Indonesia dikenal dengan negara kepulauan dan maritim. Optimalisasi pengawasan wilayah laut pun perlu dilakukan. Penelitian ini melakukan simulasi deteksi kapal menggunakan teknologi jaringan sensor nirkabel JSN menggunakan teknik Fast Fourier Transform FFT untuk mendeteksi gelombang kapal pada sensor dan melakukan proses deteksi kapal dengan centralized based system. Centralized based system ini dilakukan secara tersentral pada perangkat lunak Processing tanpa adanya proses inisialisasi pada node-node sensor. Proses deteksi ini menghasilkan data berupa kecepatan kapal yang melewati node sensor, arah datangnya kapal, koordinat sumbu x, dan koordinat sumbu y kapal. Selain itu penelitian ini mendapat data lain berupa bentuk spektrum gelombang air akibat adanya kapal dan spektrum gelombang air laut. Hasil penelitian presentase keberhasilan deteksi kapal bernilai 98.7 terhadap variasi jarak sensor dan 98 terhadap variasi kecepatan kapal, arah kapal 98.8, koordinat sumbu x kapal 96, dan koordinat sumbu y kapal 99.6. Spektrum frekuensi gelombang air akibat adanya kapal memiliki frekuensi kerja pada 2.5 Hz dan frekuensi kerja gelombang laut pada 1.25 Hz. Sistem tersentral ini memiliki kelebihan pada pengiriman data dari Arduino yang dapat dilihat dari nilai memori 18 dan dynamic memory 68 dari nilai maksimum.

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Indonesia is a country with a vast ocean composition compared to its mainland, therefore Indonesia is known as an archipelago and maritime nation. Optimizing the supervision of marine areas also needs to be done. This research simulates ship detection using wireless sensor network technology JSN using Fast Fourier Transform FFT technique to detect ship wave on sensor and perform ship detection process with centralized based system. This detection process produces data in the form of velocity of the ship passing through the sensor node, the direction of the ship, the x axis coordinates, and the coordinates of the ship 39 s y axis.

The result of this research is the percentage of ship detection success is 98.7 to variation of sensor distance and 98 to velocity variation, ship direction 98.8, 96 x ship axis coordinate and 99.6 ship y axis coordinate. The wave frequency spectrum of water due to the ship frequency at 2.5 Hz and the working frequency of sea waves at 1.25 Hz. This system has advantages in sending data from Arduino which can be seen from the memory value of 18 and dynamic memory 68 of the maximum value."

"Di Indonesia, sistem deteksi kapal asing diperlukan karena maraknya pencurian ikan oleh kapal-kapal asing. Dengan sistem tersebut, kapal-kapal asing yang memasuki wilayah perairan Indonesia akan lebih mudah diketahui dan dicegah. Pada penelitian sebelumnya, sistem deteksi kapal sudah dapat mendeteksi kapal dengan parameter estimasi kecepatan kapal, arah kapal, dan posisi kooordinat kapal setelah meninggalkan wilayah pengawasan JSN. Penelitian sebelumnya menggunakan asumsi kondisi empat buah sensor yang tidak bergerak. Dalam tulisan ini, penulis memperhitungkan node sensor bergerak. Node sensor yang bergerak didasarkan kondisi laut yang tidak tenang. Sensor yang bergerak akan memengaruhi besarnya nilai jarak antar sensor. Perubahan nilai tersebut diakibatkan oleh kondisi sensor yang terpengaruh oleh kondisi air yang bergelombang akibat faktor lingkungan. Besar nilai pergerakan node sensor didapat dengan mengkonversi hasil keluaran analog dari akselerometer pada sumbu x dan sumbu y ke satuan perpindahan. Pada sistem deteksi kapal ini, didapat nilai estimasi arah kapal, kecepatan laju kapal, dan posisi kooordinat kapal setelah meninggalkan wilayah pengawasan JSN. Penelitian ini menghasilkan persentase keberhasilan terbaik pada pengambilan data bernilai 99,73% untuk pendeteksian estimasi arah kapal, 62,59% untuk pendeteksian estimasi kecepatan kapal, 63,69% untuk pendeteksian estimasi koordinat x, dan 62,59% untuk pendeteksian estimasi koordinat y. Selain itu, didapat nilai korelasi positif/searah untuk pergerakan setiap pasang node sensor di perairan.

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In Indonesia, a foreign vessel detection system is needed because of the widespread theft of fish by foreign vessels. With this system, foreign ships entering Indonesian waters will be more easily identified and prevented. In previous studies, the ship detection system was able to detect ships with estimated parameters of ship speed, vessel direction, and vessel coordinate position after leaving the JSN surveillance area. Previous studies used the assumption of the condition of four sensors that do not move. In this paper, the author considers moving sensor nodes. The moving sensor nodes are based on uneasy sea conditions. A moving sensor will affect the value of the distance between the sensors. The change in value is caused by the condition of the sensor which is affected by the surging water conditions due to environmental factors. The value of the movement of the sensor node is obtained by converting the analog output from the accelerometer on the x axis and y axis to the displacement unit. In this ship detection system, the estimated value of the ship's direction, the speed of the ship, and the coordinate position of the ship after leaving the JSN surveillance area. This study produces the best percentage of success in taking data worth 99.73% for the detection of ship direction estimates, 62.59% for the detection of ship speed estimates, 63.69% for the detection of x coordinate estimates, and 62.59% for the detection of y coordinate estimates. In addition, a positive correlation value is obtained for the movement of each sensor node pair in the waters."

"Saat ini terdapat beberapa protokol pada Application Layer yang berjalan di sistem Internet of Things. Protocol seperti MQTT, CoAP, XMPP, dan DDS memiliki arsitektur dan kinerja yang berbeda-beda. Pada jaringan sensor nirkabel yang memiliki daya rendah, bandwidth rendah dan reliabilitas yang terbatas lebih cocok menggunakan CoAP. Namun, CoAP menderita skalabilitas yang buruk jika dibandingkan dengan MQTT. Oleh sebab itu penelitian skripsi ini fokus pada implementasi CoAP Broker yang memungkinkan CoAP menggunakan arsitektur yang serupa dengan MQTT. Penelitian ini mengimplementasi Access Gateway dan beberapa skenario skalabilitas, meliputi skenario pemantauan sensor dan pengedalian aktuator pada peternakan ayam yang memiliki kandang ayam lebih dari satu. Hasil dari penelitian ini menunjukan keberhasilan mengimplementasi CoAP Broker beserta dengan skenario yang disebutkan dengan hasil evaluasi kinerja menunjukan latency yang belum menunjukan congestion saat menangani 130 permintaan per detik dan error-rate yang baik dengan nilai yang sangat rendah antara 0.01 - 0.04.

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Currently there are several Application Layer protocols running in Internet of Things system. Protocols such as MQTT, CoAP, XMPP, and DDS have different architectures and performance. For wireless sensor networks operating in low power, low bandwidth and with limited reliability, is more suitable to use CoAP. However, CoAP suffers from scalability problem which make it inferior to MQTT architecture. Therefore this research focuses on CoAP Broker implementation which enables MQTT like architecture to be implemented in CoAP.

This research aims to implement Access Gateway and several scalability scenarios, involving sensor monitoring scenarios and actuator controls on chicken farms that have more than one chicken coop. The results of this research shows the success of implementing CoAP Broker along with the mentioned scenarios with performance evaluation results show the latency which has not indicate any congestion when handling 130 requests per second and good error rate with very low value between 0.01 0.04."

"Covers the low-power Wireless sensor network (WSN) services ranging from hardware platforms and communication protocols to network deployment, and sensor data collection and actuation. This book explains the implications of resource constraints and expected performance in terms of throughput, reliability and latency. "

"This book constitutes the refereed proceedings of the 9th European Conference on Wireless Sensor Networks, EWSN 2012, held in Trento, Italy, in Februar 2012. The 16 revised full papers presented were carefully reviewed and selected from 78 submissions. The papers are organized in topical sections on communication and security, system issues, reliability, localization and smart cameras, and hardware and sensing."

"The low-cost Wireless Sensor Network (WSN) consists of small battery powered devices called sensors, with limited energy capacity. Once deployed, accessibility to any sensor node for maintenance and battery replacement is not feasible due to the spatial scattering of the nodes. This will lead to an unreliable, limited lifetime and a poor connectivity network. In this paper a novel bio-inspired cluster-based deployment algorithm is proposed for energy optimization of the WSN and ultimately to improve the network lifetime. In the cluster initialization phase, a single cluster is formed with a single cluster head at the center of the sensing terrain. The second phase is for optimum cluster formation surrounding the inner cluster, based on swarming bees and a piping technique. Each cluster member distributes its data to its corresponding cluster head and the cluster head communicates with the base station, which reduces the communication distance of each node. The simulation results show that, when compared with other clustering algorithms, the proposed algorithm can significantly reduce the number of clusters by 38% and improve the network lifetime by a factor of 1/4."

"Efisiensi energi dan stream data mining pada Wireless Sensor Networks (WSN) adalah masalah yang sangat menarik untuk dibahas. Teknologi Routing Protocol dan Resource-Aware dapat dilakukan untuk meningkatkan efisiensi energi. Dalam penelitian ini peneliti mencoba untuk menggabungkan teknologi Routing Protocol menggunakan routing Distance Vector dan Resource-Aware (RA) framework pada Wireless Sensor Networks heterogen dengan menggabungkan sun-SPOT dan platform Imote2 Wireless Sensor Networks. RA melakukan proses pemantauan sumber daya dari memori, baterai, dan beban CPU lebih optimal dan efisien. Proses ini menggunakan Light-Weight Clustering (LWC) dan Light Weight Frequent Item (LWF). Hasil yang diperoleh bahwa dengan mengadaptasi Resource-Aware dalam Wireless Sensor Networks, masa pakai wireless sensor meningkatkan sampai ± 16,62%.

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AbstractEfficiency energy and stream data mining on Wireless Sensor Networks (WSNs) are a very interesting issue to be discussed. Routing protocols technology and resource-aware can be done to improve energy efficiency. In this paper we try to merge routing protocol technology using routing Distance Vector and Resource-Aware (RA) framework on heterogeneity wireless sensor networks by combining sun-SPOT and Imote2 platform wireless sensor networks. RA perform resource monitoring process of the battery, memory and CPU load more optimally and efficiently. The process uses Light-Weight Clustering (LWC) and Light Weight Frequent Item (LWF). The results obtained that by adapting Resource-Aware in wireless sensor networks, the lifetime of wireless sensor improve up to ± 16.62%."

"Wireless Sensor Networks (WSNs) terdiri dari sejumlah besar sensor nodes, dan digunakan untuk berbagai aplikasi seperti pemantauan gedung, pengendalian lingkungan, pemantauan kehidupan habitat liar, deteksi kebakaran hutan, otomatisasi industri, militer, keamanan, dan kesehatan. Setiap sensor node memerlukan sistem operasi (SO) yang dapat mengontrol hardware, menyediakan abstraksi hardware untuk aplikasi perangkat lunak, dan mengisi kesenjangan antara aplikasi dan hardware. Dalam penelitian ini, peneliti menyajikan SO untuk WSNs dan percobaan dari portcontikiOS untuk MSP430 mikrokontroler yang sangat populer di platform hardware untuk WSNs. Peneliti memulai dengan menghadirkan isu utama yaitu desain SO untuk WSNs. Lalu, peneliti memeriksa beberapa sistem operasi populer untuk WSNs, termasuk TinyOS, ContikiOS, dan LiteOS. Akhirnya peneliti menyajikan sebuah percobaan dari port ContikiOS untuk MSP430 mikrokontroler.

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AbstractWireless Sensor Networks (WSNs) consist of a large number of sensor nodes, and are used for various applications such as building monitoring, environment control, wild-life habitat monitoring, forest fire detection, industry automation, military, security, and health-care. Each sensor node needs an operating system (OS) that can control the hardware, provide hardware abstraction to application software, and fill in the gap between applications and the underlying hardware. In this paper, researchers present OS for WSNs and an experiment of porting contikiOS to MSP430 microcontroller which is very popular in many hardware platforms for WSNs. Researchers begin by presenting the major issues for the design of OS for WSNs. Then, researchers examine some popular operating systems for WSNs including TinyOS, ContikiOS, and LiteOS. Finally, researchers present an experiment of porting ContikiOS to MSP430 microcontroller."

"The demand for a Wireless Sensor Network (WSN) has increased enormously because of its great ability to supervise the outside world as well as due to its vast range of applications. Since these sensor nodes depend greatly on battery power and being deployed in adverse environments, substituting the battery is a tiresome job. Cluster-based routing techniques are prominent methods to extend the lifetime of wireless sensor networks. In this research, the work on energy efficient clustering approach is considered in two phases. During the cluster head selection phase, cluster heads are chosen which can stabilize the power consumption in sensor networks, by considering both the residual energy and distance of node with respect to sink. Later, during the cluster formation phase, a non-cluster head node will choose a cluster head that lies in close proximity with the center point between the sensor nodes and sink. Also, these non-cluster head nodes should be within the transmission range of the cluster head, as selected by the above method. Initially, the Low Energy Adaptive Clustering Hierarchy (LEACH) which is an eminent protocol for sensor networks is investigated. Furthermore, the same LEACH protocol is enhanced by proposing an effective cluster head election scheme as well as a new cluster formation scheme as mentioned above. Simulation results reveal that the proposed algorithm outperforms the traditional LEACH protocol in prolonging network lifetime."