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Faculty Of Engineering University Of Toyama | 論文
- Objective Function Adjustment Algorithm for Combinatorial Optimization Problems(Numerical Analysis and Optimization)
- An Improved Artificial Immune Network Model(Neural Networks and Bioengineering)
- A New Method to Solve the Constraint Satisfaction Problem Using the Hopfield Neural Network
- An Artificial Immune Network with Multi-layered B Cells Architecture
- An Artificial Immune System Architecture and Its Applications(Neural Networks and Bioengineering)
- The Fuzzy Immune Network and Its Application to Pattern Recognition(Special Section on Papers Selected from ITC-CSCC 2002)
- Design and realization of a network security model
- An Artificial Immune System with Feedback Mechanisms for Effective Handling of Population Size
- Organic Multi-Function Diodes Operable for Emission and Photo detection Modes
- Top-Absorption Organic Photodiodes Suitable for Device Integration
- Organic Bi-Function Matrix Array
- Learning Method of Hopfield Neural Network and Its Application to Traveling Salesman Problem (特集:論文誌C発刊30周年記念)
- Formation of Size- and Position-Controlled Nanometer Size Pt Dots on GaAs and InP Substrates by Pulsed Electrochemical Deposition
- Usability Assessment of Tennis Rackets Using Biomarker (Proceedings of the 54th Meeting of Japan Society of Physiological Anthropology)
- Comparison of Physiological Effect of Rural and Urban Environment : Using Salivary Amylase Activity (Proceedings of the 54th Meeting of Japan Society of Physiological Anthropology)
- 1-9 Circadian Rhythm of Salivary Amylase Activity (AMY) in Rural Environments Satoyama(Proceedings of the 53rd Meeting of Japan Society of Physiological Anthropology)
- 1-8 Physiological Effects of Bathing in Forest Atmosphere (III) : Using Salivary Amylase Activity as an Indicator
- Organic Field-Effect Transistor Integrated Circuits using Self-Alignment Process Technology
- Build-on Technology of Bi-Directional Optical Communication System using Bi-Functional Organic Diodes
- Synthesis and Carrier-transporting Properties of 5,10-Dihydro-5,5-dimethyl-10,10-diphenyl-1,9-diazasilanthrene