Pada laporan teknis ini, dapat dibuktikan bahwa ada puluhan ribu frame sengaja dihilangkan, terdapat 73 persen informasi hilang akibat reduksi resolusi (dimensi) frame video CCTV dari 1920x1080 (1080P) menjadi 960x576 (960H) yang menyebabkan objek-objek pada tiap frame mengalami pengaburan dan multi-interpretatif sehingga narasi saksi ahli Muhammad Nuh Al-Azhar dan Christopher Hariman Rianto menggiring opini persidangan. Opini sesat ini menyebabkan Hakim salah dalam mengambil keputusan.
Rekayasa video CCTV yang dilakukan Muhammad Nuh Al-Azhar dan Christopher Hariman Rianto juga dilakukan pada Camera 7 dan Camera 9 yang seharusnya bisa menangkap pergerakan Jessica Kumala Wongso di meja 54. Kedua saksi ahli tersebut justru merekayasa dimensi (resolusi frame) dari 1920x1080 (1080P) menjadi 960x576 (960H). Dengan resolusi frame yang asli (1080P) dan kedalaman bit (8 bit) per kanal, seharusnya dapat menangkap informasi pada tiap frame dengan lebih jelas dan dapat dipersepsikan lebih baik. Di sinilah, dibuktikan bahwa kedua saksi ahli tersebut sengaja mengaburkan informasi pergerakan objek sehingga mereka dapat menggiring opini Hakim agar keputusan Hakim benar-benar bertumpu pada narasi dan karangan kedua saksi ahli tersebut.
Laporan teknis ini ditulis dengan tujuan agar hal seperti ini tidak lagi terjadi di persidangan di Indonesia dan agar kedua saksi ahli tersebut disanksi atas tindakannya merekayasa barang bukti digital dan melakukan kebohongan di depan persidangan. Hal ini dimaksudkan sebagai efek jera bagi mereka dan bagi saksi ahli lain agar tidak mengulangi perbuatan yang sama.
Ucapan terimakasih dipersembahkan bagi Prof. Otto Hasibuan dan tim pengacara lain yang telah berjuang menegakkan keadilan bagi Jessica Kumala Wongso. Hormat sebesar-besarnya juga diberikan kepada Kang Karna Adibrata, host Bravos Radio, untuk keberanian dan kesetiaan mengawal kasus ini. Ketangkasan beliau sebagai alumni Teknik Elektro memberikan encounter tajam selama podcast bidang IT berlangsung. Tentunya dengan bantuan tangan handal dan kreatif Mas Imam menyajikan tayangan berkualitas. Ucapan terimakasih secara tulus juga diperuntukkan bagi Diskursus Net dan Reyben Entertainment yang telah memberikan kesempatan podcast bagi penulis untuk menjelaskan rekayasa video CCTV yang dilakukan oleh Muhammad Nuh Al-Azhar dan Christopher Hariman Rianto. Tak lupa kepada seluruh masyarakat pencinta keadilan dan warganet (netizen) yang memberi kontribusi podcast, komentar, view dan like terhadap semua tayangan terhadap kasus Jessica Kumolo Wongso.
Rismon Hasiholan Sianipar, born in Pematang Siantar in 1994, is a distinguished researcher and expert in the field of electrical engineering. After completing his education at SMAN 3 Pematang Siantar, Rismon ventured to the city of Jogjakarta to pursue his academic journey. He obtained his Bachelor of Engineering (S.T) and Master of Engineering (M.T) degrees in Electrical Engineering from Gadjah Mada University in 1998 and 2001, respectively, under the guidance of esteemed professors, Dr. Adhi Soesanto and Dr. Thomas Sri Widodo. During his studies, Rismon focused on researching non-stationary signals and their energy analysis using time-frequency maps. He explored the dynamic nature of signal energy distribution on time-frequency maps and developed innovative techniques using discrete wavelet transformations to design non-linear filters for data pattern analysis. His research showcased the application of these techniques in various fields. In recognition of his academic prowess, Rismon was awarded the prestigious Monbukagakusho scholarship by the Japanese Government in 2003. He went on to pursue his Master of Engineering (M.Eng) and Doctor of Engineering (Dr.Eng) degrees at Yamaguchi University, supervised by Prof. Dr. Hidetoshi Miike. Rismon's master's and doctoral theses revolved around combining the SR-FHN (Stochastic Resonance Fitzhugh-Nagumo) filter strength with the cryptosystem ECC (elliptic curve cryptography) 4096-bit. This innovative approach effectively suppressed noise in digital images and videos while ensuring their authenticity. Rismon's research findings have been published in renowned international scientific journals, and his patents have been officially registered in Japan. Notably, one of his patents, with registration number 2008-009549, gained recognition. He actively collaborates with several universities and research institutions in Japan, specializing in cryptography, cryptanalysis, and digital forensics, particularly in the areas of audio, image, and video analysis. With a passion for knowledge sharing, Rismon has authored numerous national and international scientific articles and authored several national books. He has also actively participated in workshops related to cryptography, cryptanalysis, digital watermarking, and digital forensics. During these workshops, Rismon has assisted Prof. Hidetoshi Miike in developing applications related to digital image and video processing, steganography, cryptography, watermarking, and more, which serve as valuable training materials. Rismon's field of interest encompasses multimedia security, signal processing, digital image and video analysis, cryptography, digital communication, digital forensics, and data compression. He continues to advance his research by developing applications using programming languages such as Python, MATLAB, C++, C, VB.NET, C#.NET, R, and Java. These applications serve both research and commercial purposes, further contributing to the advancement of signal and image analysis. Rismon Hasiholan Sianipar is a dedicated researcher and expert in the field of electrical engineering, particularly in the areas of signal processing, cryptography, and digital forensics. His academic achievements, patented inventions, and extensive publications demonstrate his commitment to advancing knowledge in these fields. Rismon's contributions to academia and his collaborations with prestigious institutions in Japan have solidified his position as a respected figure in the scientific community. Through his ongoing research and development of innovative applications, Rismon continues to make significant contributions to the field of electrical engineering.