![search dblp](https://rt.http3.lol/img/search.dark.16x16.png)
default search action
BIC-TA 2021: Taiyuan, China
- Linqiang Pan
, Zhihua Cui
, Jianghui Cai
, Lianghao Li
:
Bio-Inspired Computing: Theories and Applications - 16th International Conference, BIC-TA 2021, Taiyuan, China, December 17-19, 2021, Revised Selected Papers, Part I. Communications in Computer and Information Science 1565, Springer 2022, ISBN 978-981-19-1255-9
Evolutionary Computation and Swarm Intelligence
- Xuechun Jing
, Zhihua Cui
:
An Optimization Task Scheduling Model for Multi-robot Systems in Intelligent Warehouses. 3-17 - Jiangjiang Zhang, Zhenhu Ning, Kun Zhang, Naixin Kang:
A Multi-objective Optimization Algorithm for Wireless Sensor Network Energy Balance Problem in Internet of Things. 18-27 - Huijia Wu, Wenhong Wei, Qingxia Li:
Improved AODV Routing Protocol Based on Multi-objective Simulated Annealing Algorithm. 28-42 - Yanjie Song, Luona Wei, Lining Xing, Yi Fang, Zhongshan Zhang, Yingwu Chen:
Solving Satellite Range Scheduling Problem with Learning-Based Artificial Bee Colony Algorithm. 43-57 - Shida Wang, Xuncai Zhang, Yanfeng Wang, Ying Niu:
Black Widow Spider Algorithm Based on Differential Evolution and Random Disturbance. 58-70 - Yuxuan Ji, Jun Ye, Zhenyu Yang, Jiaxin Ao, Lei Wang:
Attribute Selection Method Based on Artificial Bee Colony Algorithm and Neighborhood Discrimination Matrix Optimization. 71-87 - Yongjian Xu, Yu Chen
:
A Cuckoo Quantum Evolutionary Algorithm for the Graph Coloring Problem. 88-99 - Jiaxin Ao, Jun Ye, Yuxuan Ji, Zhenyu Yang:
Feature Selection Algorithm Based on Discernibility Matrix and Fruit Fly Optimization. 100-115 - Zhenyu Yang, Jun Ye, Jiaxin Ao, Yuxuan Ji:
Feature Selection Method Based on Ant Colony Optimization Algorithm and Improved Neighborhood Discernibility Matrix. 116-131 - Fei Xue, Yuelu Gong, Qiuru Hai, Huilin Qin, Tingting Dong:
Implementation and Application of NSGA-III Improved Algorithm in Multi-objective Environment. 132-144 - Yupeng Han, Hu Peng, Aiwen Jiang, Cong Wang, Fanrong Kong
, Mengmeng Li:
A Differential Evolution Algorithm for Multi-objective Mixed-Variable Optimization Problems. 145-159 - Dongzhi Cao
, Zhenhu Ning, Shiqiang Zhang, Jianli Liu:
An Effective Data Balancing Strategy Based on Swarm Intelligence Algorithm for Malicious Code Detection and Classification. 160-173 - Jinhao Yu, Junhui Yang:
Adaptive Multi-strategy Learning Particle Swarm Optimization with Evolutionary State Estimation. 174-186 - Min-Hui Liao, Xin Chen, Yu-Jun Zheng:
Water Wave Optimization with Distributed-Learning Refraction. 187-200 - Chong-yang Wang, Si-yang Chen, Xin-cheng Li:
Adaptive Differential Privacy Budget Allocation Algorithm Based on Random Forest. 201-216 - Zhuo Liu
, Yifei Sun, Shi Cheng, Xin Sun, Kun Bian, Ruoxia Yao:
A Node Influence Based Memetic Algorithm for Community Detection in Complex Networks. 217-231 - Qingqing Liu, Caixia Cui, Qinqin Fan:
Adaptive Constraint Multi-objective Differential Evolution Algorithm Based on SARSA Method. 232-246 - Luona Wei, Yanjie Song, Lining Xing, Ming Chen, Yingwu Chen:
A Hybrid Multi-objective Coevolutionary Approach for the Multi-user Agile Earth Observation Satellite Scheduling Problem. 247-261 - Tao Zeng, Hui Wang, Wenjun Wang, Tingyu Ye
, Luqi Zhang:
Surrogate-Assisted Artificial Bee Colony Algorithm. 262-271 - Tingyu Ye
, Hui Wang, Wenjun Wang, Tao Zeng, Luqi Zhang:
An Improved Bare-Bones Multi-objective Artificial Bee Colony Algorithm. 272-280 - Xinyu Zhou, Junyan Song, Shuixiu Wu, Wenlong Ni, Mingwen Wang:
Fitness Landscape Analysis: From Problem Understanding to Design of Evolutionary Algorithms. 281-293 - Wenlong Ni, Jue Wang, Ziyang Liu, Huaixiang Song, Xu Guo, Hua Chen, Xinyu Zhou, Mingwen Wang:
Optimal Overbooking Appointment Scheduling in Hospitals Using Evolutionary Markov Decision Process. 294-301 - Hongye Li, Xiaoying Pan, Wei Gan, Lei Wang:
A Multi-direction Prediction Multi-objective Hybrid Chemical Reaction Optimization Algorithm for Dynamic Multi-objective Optimization. 302-316 - Rui Dai
, Hui Zheng, Jing Jie, Xiaoli Wu:
Automatic Particle Swarm Optimizer Based on Reinforcement Learning. 317-331 - Bin Yang, Shuo Zhang, Guangyu Luo, Dongming Zhao:
A Multi-UUV Formation Control and Reorganization Method Based on Path Tracking Controller and Improved Ant Colony Algorithm. 332-341 - Yanping Qiao, Feng Li, Cong Zhang, Xiaofeng Li, Zhigang Zhou, Tao Zhang, Quanhua Zhu:
Firefly Algorithm with Opposition-Based Learning. 342-352 - Yikun Zhang, Jian Huang:
An Optimization Method of Course Scheduling Problem Based on Improved Genetic Algorithm. 353-368
DNA and Molecular Computing
- Luhui Wang
, Yue Wang, Mengyang Hu
, Sunfan Xi, Meng Cheng, Yafei Dong:
Graphene Oxide-triplex Structure Based DNA Nanoswitches as a Programmable Tetracycline-Responsive Fluorescent Biosensor. 371-379 - Mengyang Hu, Luhui Wang, Sunfan Xi, Rong Liu, Yafei Dong:
Construction of Complex Logic Circuit Based on DNA Logic Gate AND and OR. 380-389 - Sunfan Xi, Yue Wang, Mengyang Hu, Luhui Wang, Meng Cheng, Yafei Dong:
Tetracycline Intelligent Target-Inducing Logic Gate Based on Triple-Stranded DNA Nanoswitch. 390-401 - Wenping Yu, Fuwen Chen, Jieping Wu, Xiangquan Xiao, Hongping Pu:
Application of Chain P Systems with Promoters in Power Coordinated Control of Multi-microgrid. 402-414 - Jing Yang, Zhixiang Yin, Zhen Tang, Jianzhong Cui, Congcong Liu:
Solution to Satisfiability Problem Based on Molecular Beacon Microfluidic Chip Computing Model. 415-425 - Haoping Ji, Yanfeng Wang, Junwei Sun
:
Construction of Four-Variable Chaotic System Based on DNA Strand Displacement. 426-436 - Zijie Meng, Xiaoyu An, Junwei Sun
:
Synchronization of Chaos with a Single Driving Variable Feedback Control Based on DNA Strand Displacement. 437-446 - Li Liu, Keqin Jiang:
Sequential Spiking Neural P Systems with Polarizations Based on Minimum Spike Number Working in the Accepting Mode. 447-458
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
![](https://rt.http3.lol/img/new-feature-top-right.156x64.png)