Your search keyword '"Putra, Emansa Hasri"' showing total 6 results

1. Improvement of low-profile microstrip antenna performance by hexagonal-shaped SRR structure with DNG metamaterial characteristic as UWB application

Author

Saktioto, Soerbakti, Yan, Syahputra, Romi Fadli, Gamal, Moh. Danil Hendry, Irawan, Dedi, Putra, Emansa Hasri, Darwis, Rizadi Sasmita, and Okfalisa

Published

2022

2. A novel energy-efficient dynamic programming routing protocol in wireless multimedia sensor networks.

Author

Putra, Emansa Hasri, Satria, Muhammad Haikal, Azwar, Hamid, Rianda, Rendy, Saputra, Muhammad, and Darwis, Rizadi Sasmita

Subjects

WIRELESS sensor networks, DYNAMIC programming, ANT algorithms, ENERGY consumption, POWER resources, ECOLOGICAL houses, MULTIMEDIA systems

Abstract

Wireless multimedia sensor networks (WMSNs) have characteristics that may influence the routing decisions, such as limited energy resources, storage and computing capacity. Therefore, a routing optimization needs to be done to match the characteristics of the WMSNs. Existing routing protocols only consider energy efficiency regardless of energy threshold, maximum energy, and link cost collectively as the primary basis of routing. In this work, the energy-efficient dynamic programming (EEDP) protocol is proposed to optimize routing decisions that take into account the energy threshold, the maximum energy, and the link cost. Then, the protocol is compared with the dynamic programming (DP), and the ant colony optimization (ACO) protocol. The simulation results show that the EEDP protocol can improve energy efficiency of nodes and network lifetime of the WMSNs. Then, the EEDP protocol is also implemented into a network topology of 10 NodeMCU ESP32 devices. As a result, the EEDP protocol can work very well by selecting routes based on nodes that have the remaining energy above 50 and has the shortest distance. The average delay in sending data for the entire route for the 10 iterations of sending data is 3.99 seconds. [ABSTRACT FROM AUTHOR]

Published

2024

3. Yearly Residential Electricity Forecasting Model Based on Fuzzy Regression Time Series in Indonesia †.

Author

Efendi, Riswan, Yunus, Noor Wahida Md, Widyawati, Sri Rahayu, Susanti, Rika, Egrioglu, Erol, Syahri, Muhammad, Putra, Emansa Hasri, and Hamzah, Amir

Subjects

ELECTRICITY, TIME series analysis, FUZZY logic, UNCERTAINTY

Abstract

Triangular fuzzy numbers (TFNs) are used to express the weights of criteria and alternatives to account for the ambiguity and uncertainty inherent to subjective evaluations. However, the proposed method can easily be extended to other fuzzy settings depending on the uncertainty facing managers and decision-makers. Triangular fuzzy number (TFN) is a critical component in building fuzzy models such as fuzzy regression and fuzzy autoregressive. Many symmetrical triangular fuzzy numbers have been proposed to improve the scale's linguistic accuracy. Additionally, Sturges' rule is a well-known approach to determining criteria or intervals of grouped data. However, some existing TFN methods are challenging despite being considered in building fuzzy regression models. The increase in electricity distribution is caused by the number of customers and the amount of installed capacity factors in Indonesia. The identified factors are uncertainty, inexactness, and random nature. This paper investigates the residential electricity distribution model using fuzzy regression time series. In the beginning step, the integration between conventional TFN and Sturges' rule was proposed to determine the criteria or scale of linguistic terms. The secondary data was collected from BPS Indonesia from 2000 to 2021. The dependent variable was denoted as electric power distribution (Y R T) . On the other hand, the number of customers and the amount of installed capacity were grouped as independent variables ( X P L and X K T ). The results showed that the best forecasting model is an FLR right upper limit without constant. This proposed model also has higher MAPE accuracy at 1.44% compared to classical models. Additionally, the proposed triangular fuzzy number could improve the accuracy of the proposed model significantly. Interestingly, both dependent and independent factors were initially forecasted using a basic time series model, namely exponential smoothing. [ABSTRACT FROM AUTHOR]

Published

2023

4. Energy-Efficient Routing Based on Dynamic Programming for Wireless Multimedia Sensor Networks (WMSNs).

Author

Putra, Emansa Hasri, Hidayat, Risanuri, Widyawan, and Mustika, I. Wayan

Subjects

*DYNAMIC programming, *WIRELESS sensor networks, *MATHEMATICAL optimization, *WIRELESS sensor nodes, *BODY sensor networks, *ENERGY consumption

Abstract

Wireless Multimedia Sensor Networks (WMSNs) advances can route multimedia applications from source nodes to a sink. However, they require energy efficiency and network lifetime due to limited power resources in the sensor nodes. This paper proposes an energy-efficient routing optimization for multimedia transmission in WMSNs. The optimization utilizes a routing algorithm based on the dynamic programming. The routing optimization algorithm selects intermediary nodes which have minimum energy above 60%. Then, the priority selection of paths immediately finds neighboring nodes which have the greatest energy minimum. If there is the same minimum energy between the neighboring nodes, then the second priority selection is based on smaller link cost. [ABSTRACT FROM AUTHOR]

Published

2017

5. Cross-layer design of wireless multimedia sensor network based on IEEE 802.11e EDCA and H.264/SVC.

Author

Putra, Emansa Hasri, Hidayat, Risanuri, Widyawan, and Mustika, I Wayan

Published

2015

6. Cross layer design of wireless LAN based on H.264/SVC and IEEE 802.11e

Author

Putra, Emansa Hasri, primary, Supriyanto, Eko, additional, bin Din, Jafri, additional, and Satria, Haikal, additional

Published

2011