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"Kemamanan merupakan suatu yang esensial pada umumnya. Beberapa data membutuhkan keamanan agar terproteksi dari hal yang tidak diinginkan. Salah satu meningkatkan keamanan adalah dengan menerapkan enkripsi. Metode enkripsi ini tergolong cepat dibanding dengan enkripsi lainnya. Algoritma yang digunakan untuk melakukan enkripsi ini adalah Advanced Encryption Standard. Skripsi ini membahas pengembangan sistem enkripsi gambar medis. Histogram digunakan untuk membandingkan persebaran nilai dan jumlah pixel gambar asli dengan gambar setelah diolah, serta koefisien korelasi untuk mengetahui korelasi antar pixel pada gambar. Dari pengujian yang telah dilakukan, Sistem Enkripsi Gambar Medis Menggunakan Metode Byte-Level Encoding Base-64 dan Encryption AESakan menghasilkan gambar baru yang teracak dengan rata-rata nilai RMS Error sebesar 4388,39 dan nilai rata-rata untuk koefisien korelasi horizontal sebesar 0,03344, vertical sebesar 0,00742 dan diagonal sebesar 0,01110.Safety is essential in general. Some data requires security to be protected from unwanted things. One way to improve security is to implement encryption. This encryption method is relatively fast compared to another encryption. The algorithm used to perform this encryption is the Advanced Encryption Standard. This thesis discusses the development of medical image encryption systems. The histogram is used to compare the distribution of values and the number of pixels of the original image with the image after processing, as well as the correlation coefficient to determine the correlation between pixels in the image. From the tests that have been done, the Medical Image Encryption System Using the AES Encryption Method will produce a randomized new image with an average RMS Error of 4388.39 and the average value for the horizontal correlation coefficient of 0.03344, vertical of 0.00742 and diagonal of 0.01110."

"Pada penelitian ini, dirancang suatu sistem enkripsi citra yang berfokus di bidang teledermatologi, secara khusus untuk mengamankan data-data berupa gambar penyakit kulit. Mekanisme enkripsi dan dekripsi citra dilakukan di sisi klien menggunakan program enkripsi berbasis chaos dengan menerapkan gabungan teknik confusion dan diffusion. Model chaotic map yang digunakan pada teknik confusion adalah Arnold’s cat map, sedangkan model yang digunakan pada teknik diffusion adalah Henon map. Initial values dari kedua chaotic map tersebut didapatkan dari secret key sepanjang 30-digit numerik yang dihasilkan melalui pertukaran kunci Diffie-Hellman. Pada Arnold’s cat map digunakan nilai p dan q yang berbeda-beda pada setiap iterasinya, sedangkan pada Henon map digunakan nilai x dan y dengan tingkat presisi hingga 10^-14. Dari pengujian yang telah dilakukan, didapatkan histogram dengan persebaran piksel yang menyeluruh. Selanjutnya didapatkan juga rata-rata koefisien korelasi sebesar 0.003877 (horizontal), -0.00026 (vertikal), -0.00049 (diagonal), dan rata-rata nilai entropi sebesar 7.950304. Dari segi sensitivitas kunci, perbedaan satu angka pada secret key menyebabkan hasil enkripsi hanya memiliki indeks kesamaan sebesar 0.005337 (0.5%). Sedangkan perbedaan kunci pada dekripsi citra tidak bisa kembali ke bentuk semula, dan justru menghasilkan citra acak lain dengan rata-rata nilai entropi hasil dekripsi sebesar 7.964909333 (perbedaan secret key) dan 7.994861667 (perbedaan private key).

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This research designed an image encryption system that focused on securing teledermatology data, in the form of skin disease images. The encryption and decryption process of this system is done on the client side using chaos-based encryption with confusion and diffusion techniques. The chaotic map model that is being used for confusion is Arnold’s cat map, meanwhile Henon map is used for the diffusion. Initial values of both chaotic maps are obtained from 30-digits secret key which is generated using Diffie-Hellman key exchange. During Arnold’s cat map generation, different p and q values are used for every iteration. On the other side, the precision of Henon map’s x and y values are 10^-14. From the tests that have been done, histograms of the encrypted images are relatively flat and distributed through all the gray values. Moreover, the encrypted images have an average correlation coefficient of 0.003877 (horizontal), -0.00026 (vertical), -0.00049 (diagonal), and average entropy of 7.950304. From key sensitivity test, a difference of just one number on the secret key causes big differences as both results only have similarity index of 0.005337 (0.5%). Meanwhile in decryption process, that little key difference cannot be used to restore the encrypted image to its original form and generate another chaotic image with an average entropy of 7.964909333 (secret key difference) and 7.994861667 (private key difference)."

"Sistem dinamik chaotic dikenal sangat bermanfaat untuk kriptografi data citra digital, karena memiliki beberapa sifat dan perilaku penting, seperti sensitivitas tinggi terhadap keadaan awal, ergodisitas tinggi, dan juga perilaku acak dan aperiodik. Dalam tesis ini, sebuah analisis dilakukan untuk menguji apakah peta chaotic Gauss Map dan Circle Map dapat dikomposisikan untuk menghasilkan sebuah peta chaotic baru yang layak untuk diimplementasikan pada kriptosistem citra digital. Untuk menguji kelayakan ini, Lyapunov Exponents dan diagram bifurkasi dari Gauss Map, Circle Map, dan peta hasil komposisi keduanya dianalisis. Setelah peta chaotic hasil komposisi terbaik diperoleh, peta tersebut diuji kualitas keacakannya sebagai pembangun barisan bilangan pseudorandom menggunakan Uji NIST. Kemudian, sebuah kriptosistem citra digital berbasis One-Time Pad yang mengimplementasikan peta chaotic hasil komposisi tersebut sebagai generator keystream dikonstruksi, yang diujikan pada sepuluh citra digital agar kinerjanya dapat diukur. Peta chaotic yang dihasilkan dari komposisi tersebut memiliki diagram bifurkasi yang himpunan nilai limitnya padat pada domainnya, memiliki nilai-nilai Lyapunov Exponents yang sangat positif, dan hampir lulus seluruh Uji NIST secara sempurna. Kriptosistem yang mengimplementasikan peta chaotic tersebut juga secara sempurna lulus uji-uji sensitivitas, uji ruang kunci, uji korelasi, uji entropi, dan hampir secara sempurna lulus uji histogram.

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Chaotic dynamical systems are known to be very beneficial for digital image cryptography due to its important properties and behaviors, such as extreme sensitivity to initial conditions, high ergodicity, and its random and aperiodic behaviors. In this thesis, an analysis is conducted to test whether the chaotic Gauss Map and Circle Map can be combined to generate a new chaotic map suitable for digital image cryptosystem implementations. To test this suitability, the Lyapunov Exponents and the bifurcation diagrams of Gauss Map, Circle Map, and their combined map are analyzed. Once the best combined map is obtained, its randomness quality as a pseudorandom number generator (PRNG) is tested using the NIST Test. Then, a digital image cryptosystem based on the One-Time Pad scheme implementing the combined chaotic map as the keystream generator is constructed, which is tested on ten digital images to have its performance measured. The resulting chaotic map from the combination has bifurcation diagrams with dense limit sets within its domain, has very positive Lyapunov Exponents, and almost perfectly passes the entire NIST Test. The cryptosystem implementing the chaotic map also perfectly passes the sensitivity tests, the keyspace test, the correlation test, the entropy test, and almost perfectly passes the histogram"

"The crypto wars have raged for half a century.In the 1970s, digital privacy activists prophesied the emergence of an Orwellian State, made possible by computer-mediated mass surveillance. The antidote: digital encryption.The U.S. government warned encryption would not only prevent surveillance of law-abiding citizens, but of criminals, terrorists, and foreign spies, ushering in a rival dystopian future.Both parties fought to defend the citizenry from what they believed the most perilous threats. The government tried to control encryption to preserve its surveillance capabilities; privacy activists armed citizens with cryptographic tools and challenged encryption regulations in the courts.No clear victor has emerged from the crypto wars. Governments have failed to forge a framework to govern the, at times conflicting, civil liberties of privacy and security in the digital age—an age when such liberties have an outsized influence on the citizen–State power balance. Solving this problem is more urgent than ever.Digital privacy will be one of the most important factors in how we architect twenty-first century societies—its management is paramount to our stewardship of democracy for future generations. We must elevate the quality of debate on cryptography, on how we govern security and privacy in our technology-infused world. Failure to end the crypto wars will result in societies sleepwalking into a future where the citizen–State power balance is determined by a twentieth-century status quo unfit for this century, endangering both our privacy and security.This book provides a history of the crypto wars, with the hope its chronicling sets a foundation for peace."