Topics
DS-AIR lays the foundation for a common framework for publication of ideas, derivation and testing of techniques that combine theory, science, engineering, and mathematics, leading to future innovations and novel technologies at the forefront of disseminating and communicating scientific knowledge and impactful discoveries defining the frontiers of a cutting-edge domain such as Robotics and AI to researchers and the public, worldwide. The journal encourages scientists and engineers to publish their experimental and theoretical research in as much detail as possible. Therefore, the journal has no restrictions regarding the length of papers. Full experimental details should be provided so that the results can be reproduced. DS-AIR publishes original research articles, review articles, short papers, book reviews and communications, that offer substantial new insight into any field of study that involves artificial intelligence (AI) and robotics. Special emphasis is given to technological innovations and real-world applications. Special issues related to the topics of DS-AIR are also welcome.
The scope of the journal encompasses subjects within the wide domain of AI and Robotics, including but not limited to the following topics:
- Wireless Sensor Networks for Robot Navigation
- Theoretical Interpretation of AI
- The Modeling, Identification, and Control of Robotic Systems
- The History of Robotics
- System Modelling
- Swarm Robotics, Mobile, and Flying Robotic Systems
- Swarm Intelligence, Artificial Life and Multi-Agent Systems
- Space, Planetary and Undersea Exploration
- Soft Robotics
- Social and Lifestyle Robots
- Social and Ethical Issues Related to AI-R
- Smart Actuators
- Service Robotics, Industrial Robotizations, Space Robotics
- Sensorization, Robot Navigation, Communication Robotics
- Science of Robotics For Human
- Science of Intelligent Physical Systems
- Robotics and Health/Medicine
- Robotics and Automation
- Robot and Swarm Intelligence
- Remote Operation and Exploration
- Psychology-based Social Robotics
- Probabilistic Computing
- Novel and Biologically Inspired Robotics
- Natural Language Processing, Recognition and Applications
- Nano and Micro-Robotics
- Multi-Sensor Data Fusion and SLAM
- Multi-Robot Control
- Multimodal Human–Machine Interaction
- Motion Planning and Control
- Morphological Computation in Modular Robots
- Machine Perception and Pattern Recognition
- Machine and Deep Learning
- Knowledge Representation
- Kinematics Knowledge Reasoning and Discovery
- Intelligent Robotics, Mechatronics, and Biomimetics
- Intelligent Machine/Agent
- Intelligent and Information Systems
- Intelligence System and Application
- Information Theory of Cognitive Systems
- Industrial Robotics
- Humanoids
- Human–Machine Interaction
- Human Augmentation
- Guided Self-Organization
- Genetic Algorithms
- Fuzzy Logic
- Field Robotics
- Expert Systems
- Exoskeletons, Prosthetics, and Artificial Organs
- Evolutionary Game Theory in Robotics
- Embodied Intelligence
- Data Mining for Robotics
- Conversational AI
- Control Theory
- Control Software
- Control Applications
- Computer Vision
- Computational Robotics
- Computational Intelligence
- Complex Networks and Distributed Computation
- Complex Adaptive Systems
- Brain Science-Inspired AI
- Brain and Cognitive Science
- Biomedical, Rehabilitation, and Surgical Robotics
- Bio-Inspired Robotics
- Bio-Inspired Design
- Bio-Inspired Cyber-Physical Security
- Big Data and Knowledge Engineering
- Autonomous Vehicles
- Autonomous Behaviors
- Automated Planning and Scheduling
- Artificial Neural Networks
- Artificial General Intelligence
- AI-Generated Art
- AI-Based Molecular and Material Design
- AI-Based Medical Image Analysis
- AI-Assisted Protein Structure Predictions
- AI-Assisted Mathematics
- AI, Neural Networks, and Fuzzy Logic in Robotics
- AI Theory
- AI Technique
- AI Games
- AI Application