Biblio

Filters: Author is Gerardo, Bobby D.  [Clear All Filters]
2020-06-08
De Guzman, Froilan E., Gerardo, Bobby D., Medina, Ruji P..  2019.  Implementation of Enhanced Secure Hash Algorithm Towards a Secured Web Portal. 2019 IEEE 4th International Conference on Computer and Communication Systems (ICCCS). :189–192.
In this paper, the application of the enhanced secure hash algorithm-512 is implemented on web applications specifically in password hashing. In addition to the enhancement of hash function, hill cipher is included for the salt generation to increase the complexity of generating hash tables that may be used as an attack on the algorithm. The testing of same passwords saved on the database is used to create hash collisions that will result to salt generation to produce a new hash message. The matrix encryption key provides five matrices to be selected upon based on the length of concatenated username, password, and concatenated characters from the username. In this process, same password will result to a different hash message that will to make it more secured from future attacks.
2020-09-04
Manucom, Emraida Marie M., Gerardo, Bobby D., Medina, Ruji P..  2019.  Security Analysis of Improved One-Time Pad Cryptography Using TRNG Key Generator. 2019 IEEE 5th International Conference on Computer and Communications (ICCC). :1515—1521.
Cryptography is one of the important aspect of data and information security. The security strength of cryptographic algorithms rely on the secrecy and randomness of keys. In this study, bitwise operations, Fisher-Yates shuffling algorithm, and cipher text mapping are integrated in the proposed TRNG key generator for One-Time Pad cryptography. Frequency monobit, frequency within a block, and runs tests are performed to evaluate the key randomness. The proposed method is also evaluated in terms of avalanche effect and brute force attack. Tests results indicate that the proposed method generates more random keys and has a higher level of security compared with the usual OTP using PRNG and TRNGs that do not undergo a refining phase.
2020-06-22
Nisperos, Zhella Anne V., Gerardo, Bobby D., Hernandez, Alexander A..  2019.  A Coverless Approach to Data Hiding Using DNA Sequences. 2019 2nd World Symposium on Communication Engineering (WSCE). :21–25.
In recent years, image steganography is being considered as one of the methods to secure the confidentiality of sensitive and private data sent over networks. Conventional image steganography techniques use cover images to hide secret messages. These techniques are susceptible to steganalysis algorithms based on anomaly detection. This paper proposes a new approach to image steganography without using cover images. In addition, it utilizes Deoxyribonucleic Acid (DNA) sequences. DNA sequences are used to generate key and stego-image. Experimental results show that the use of DNA sequences in this technique offer very low cracking probability and the coverless approach contributes to its high embedding capacity.
2020-03-23
Manucom, Emraida Marie M., Gerardo, Bobby D., Medina, Ruji P..  2019.  Analysis of Key Randomness in Improved One-Time Pad Cryptography. 2019 IEEE 13th International Conference on Anti-counterfeiting, Security, and Identification (ASID). :11–16.
In cryptography, one-time pad (OTP) is claimed to be the perfect secrecy algorithm in several works if all of its features are applied correctly. Its secrecy depends mostly on random keys, which must be truly random and unpredictable. Random number generators are used in key generation. In Psuedo Random Number Generator (PRNG), the possibility of producing numbers that are predictable and repeated exists. In this study, a proposed method using True Random Number Generator (TRNG) and Fisher-Yates shuffling algorithm are implemented to generate random keys for OTP. Frequency (monobit) test, frequency test within a block, and runs tests are performed and showed that the proposed method produces more random keys. Sufficient confusion and diffusion properties are obtained using Pearson correlation analysis.
2020-06-12
De Guzman, Froilan E., Gerardo, Bobby D., Medina, Ruji P..  2018.  Enhanced Secure Hash Algorithm-512 based on Quadratic Function. 2018 IEEE 10th International Conference on Humanoid, Nanotechnology, Information Technology,Communication and Control, Environment and Management (HNICEM). :1—6.

This paper attempts to introduce the enhanced SHA-1 algorithm which features a simple quadratic function that will control the selection of primitive function and constant used per round of SHA-1. The message digest for this enhancement is designed for 512 hashed value that will answer the possible occurrence of hash collisions. Moreover, this features the architecture of 8 registers of A, B, C, D, E, F, G, and H which consists of 64 bits out of the total 512 bits. The testing of frequency for Q15 and Q0 will prove that the selection of primitive function and the constant used are not equally distributed. Implementation of extended bits for hash message will provide additional resources for dictionary attacks and the extension of its hash outputs will provide an extended time for providing a permutation of 512 hash bits.

2019-02-08
Olegario, Cielito C., Coronel, Andrei D., Medina, Ruji P., Gerardo, Bobby D..  2018.  A Hybrid Approach Towards Improved Artificial Neural Network Training for Short-Term Load Forecasting. Proceedings of the 2018 International Conference on Data Science and Information Technology. :53-58.

The power of artificial neural networks to form predictive models for phenomenon that exhibit non-linear relationships is a given fact. Despite this advantage, artificial neural networks are known to suffer drawbacks such as long training times and computational intensity. The researchers propose a two-tiered approach to enhance the learning performance of artificial neural networks for phenomenon with time series where data exhibits predictable changes that occur every calendar year. This paper focuses on the initial results of the first phase of the proposed algorithm which incorporates clustering and classification prior to application of the backpropagation algorithm. The 2016–2017 zonal load data of France is used as the data set. K-means is chosen as the clustering algorithm and a comparison is made between Naïve Bayes and k-Nearest Neighbors to determine the better classifier for this data set. The initial results show that electrical load behavior is not necessarily reflective of calendar clustering even without using the min-max temperature recorded during the inclusive months. Simulating the day-type classification process using one cluster, initial results show that the k-nearest neighbors outperforms the Naïve Bayes classifier for this data set and that the best feature to be used for classification into day type is the daily min-max load. These classified load data is expected to reduce training time and improve the overall performance of short-term load demand predictive models in a future paper.