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"ABSTRAKSkripsi ini membahas tentang pengujian dari standar Wi-Fi 802.11ac dalam melakukan transmisi pada saat melakukan streaming multimedia berkualitas tinggi melalui protokol UDP dan hasilnya akan dibandingkan dengan standar 802.11n. Pada Skripsi ini akan dijelaskan konsep dasar jaringan komputer, wifi, standar 802.11, 802.11ac, path loss link budget, streaming multimedia, pengujian 802.11ac dan 802.11n dalam berbagai kondisi, serta hasil pengujian kedua standar tersebut. Hasil pengujian menggunakan JPERF yang dilakukan memberikan hasil bahwa 802.11ac lebih baik karena mengalami maksimal penurunan sebesar 49.73% pada streaming multimedia berkualitas tinggi dan jumlah adanya data error pada pengujian pengiriman UDP sebesar 7.8%.

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ABSTRACTThis paper discusses the testing of 802.11ac Wi-Fi standard in high-quality multimedia streaming over UDP protocol and the results will be compared with the 802.11n standard. In this paper will explain the basic concepts of computer networks, wifi, 802.11 standard, 802.11ac, path loss of link budget, streaming multimedia, 802.11ac and 802.11n testing in various conditions, as well as the test results between the two standards. Results of testing performed using JPERF provide results that 802.11ac is better because of a maximum decrease of 49.73% in high-quality multimedia streaming and the number of data errors in the delivery of UDP testing at 7.8%."

"Penelitian ini berfokus pada perancangan dan pengembangan antena tekstil wearable berbahan dasar jeans yang beroperasi pada dua pita frekuensi utama (2,4 GHz, 5,2 GHz). Antena ini dirancang untuk memenuhi kebutuhan aplikasi komunikasi nirkabel moderen untuk pita lebar, seperti dalam sektor Industrial, Scientific, and Medical (ISM), serta Wi-Fi. Studi ini mencakup tinjauan literatur, perancangan dan simulasi menggunakan perangkat lunak CST Suite Studio, serta fabrikasi dan pengukuran kinerja antena. Antena yang dirancang diharapkan memiliki karakteristik unggul seperti ringan, biaya rendah, kuat secara mekanis, mudah diproduksi, bebas perawatan, dan mudah dipasang. Evaluasi kinerja antena dilakukan dengan mengukur parameter seperti koefisien refleksi, bandwidth gain, dan pola radiasi. Selain itu, uji fleksibilitas antena dilakukan untuk memastikan keandalan kinerja dalam berbagai kondisi mobilitas pengguna. Antena ini mendukung berbagai standar Wi-Fi, termasuk IEEE 802.11a, 802.11n, 802.11ac, dan 802.11ax (Wi-Fi 6). Hasil pengukuran dari antena tekstil menunjukkan antena dapat bekerja di frekuensi 2,33 GHz-2,43 GHz dan 5,02 GHz-5,29 GHz dengan masing-masing bandwidth 100 MHz dan 270 MHz. Adapun hasil pola radiasi antena menunjukkan directional dan gain 1,51 dB dan 3,39 dB untuk frekuensi 2,4 GHz dan 5,2 GHz, hasil pengukuran ini sama dengan hasil simulasi. Kondisi di atas tercapai jika antena dalam keadaan planar.

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This research focuses on the design and development of a wearable textile antenna made from denim fabric, operating in two primary frequency bands (2.4 GHz, 5.2 GHz). The antenna is designed to meet the needs of moderen wireless communication applications for broadband, such as in the Industrial, Scientific, and Medical (ISM) sectors, as well as Wi-Fi. This study includes a literature review, design and simulation using CST Suite Studio software, as well as fabrication and performance measurement of the antenna. The designed antenna is expected to possess superior characteristics such as being lightweight, low-cost, mechanically robust, easy to manufacture, maintenance-free, and easy to install. The performance evaluation of the antenna is conducted by measuring parameters such as reflection coefficient, bandwidth, gain, and radiation pattern. Additionally, flexibility tests of the antenna are performed to ensure reliable performance under various user mobility conditions. This antenna supports various Wi-Fi standards, including IEEE 802.11a, 802.11n, 802.11ac, and 802.11ax (Wi-Fi 6). The measurement results from the textile antenna, it works at frequencies 2.33 GHz-2.43 GHz and 5.02 GHz-5.29 GHz with bandwidths of 100 MHz and 270 MHz, respectively. The results of the antenna radiation pattern show directional pattern and the antenna gain of 1.51 dB and 3.39 dB for the 2.4 GHz and 5.2 GHz frequencies, these measurement results agree with the simulation results. Therefore the proposed antenna can be uses as candidate for wearable Wi-Fi applications. This conditions can be reach in planar condition."