Deep Learning Control for Sensors and IoT Applications
A special issue of Sensors (ISSN 1424-8220). This special issue belongs to the section "Intelligent Sensors".
Deadline for manuscript submissions: closed (30 June 2023) | Viewed by 19406
Special Issue Editors
Interests: signal processing; wireless sensor networks; digital communications; image processing; electronic engineering; applied mathematics
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
With the aid of digital signal processing (DSP) and artificial intelligence (AI), supported by recent developments in nanotechnology, wonderful progress has been achieved in modernizing the magnificent fields of linear and nonlinear control. The emerging field of deep learning (DL) is currently leading a revolution in analyzing complex systems in various fields. Deep learning is giving hope in creating novel strategies for handling challenging problems of linear and nonlinear control systems and their emerging applications arising from the growing integration of control with modern technologies such as IoT communications and electronic sensing. Knowing that systems such as wireless sensor networks (WSNs), which are the backbone of IoT, are confronted by limited storage, power, and computation capabilities, the task of control in such environments would be more challenging, as the ordinary complex DSP and DL techniques might have to be reconsidered. This Special Issue aims to present state-of-the-art control strategies in the fields of sensors, WSNs, and IoT-related applications.
Topics to be covered include, but are not limited to, the following areas in support of the control theory for sensors, wireless sensor networks (WSNs), and IoT applications:
- Modelling and design of control systems in sensor networks.
- Smart home control systems.
- Control for IoT applications.
- Deep-learning and/or adaptive DSP techniques in control.
- Biomedical system modelling and control.
- Adaptive control.
- Energy-efficient control techniques and designs.
- Low-cost hardware designs for control.
- Computationally efficient control techniques.
- Control in communication systems.
- DL for real-time control.
Prof. Dr. Zahir M. Hussain
Dr. Katrina L. Neville
Guest Editors
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Keywords
- nonlinear control
- robust control
- real-time control
- adaptive control
- control systems
- deep learning
- signal processing
- sensors
- IoT
- fuzzy control
- wireless sensor networks
- communication systems
- control for biomedical applications
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