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Physical Sciences · Engineering

Embedded Systems and FPGA Design
Research Guide

What is Embedded Systems and FPGA Design?

Embedded Systems and FPGA Design is the engineering discipline focused on designing resource-constrained computing systems integrated into larger devices, with FPGA-based implementations providing reconfigurable hardware acceleration for data acquisition, control, IoT, and real-time applications.

The field encompasses 38,699 published works on embedded systems, data acquisition, FPGA solutions, IoT, remote monitoring, web servers, real-time applications, sensor networks, high-speed data transmission, and industrial monitoring systems. Peter Marwedel and Michael Engel (2010) in "Embedded System Design" provide foundational material for courses, relating key topics in embedded system design to each other. Applications span control systems, home automation, and power electronics, as evidenced by highly cited works on PWM converters and LED drivers.

Topic Hierarchy

100%
graph TD D["Physical Sciences"] F["Engineering"] S["Control and Systems Engineering"] T["Embedded Systems and FPGA Design"] D --> F F --> S S --> T style T fill:#DC5238,stroke:#c4452e,stroke-width:2px
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38.7K
Papers
N/A
5yr Growth
26.6K
Total Citations

Research Sub-Topics

FPGA-based Real-Time Control Systems

This sub-topic covers the design and implementation of FPGA architectures for real-time control applications in embedded systems, including hardware description languages and timing analysis. Researchers study optimization techniques for latency reduction and reliability in industrial control loops.

15 papers

Embedded Sensor Networks for IoT

This sub-topic focuses on low-power embedded systems and protocols for wireless sensor networks in IoT environments, addressing energy harvesting and data aggregation. Researchers investigate scalability and fault tolerance for remote monitoring deployments.

15 papers

High-Speed Data Acquisition Systems

This sub-topic examines FPGA-accelerated data acquisition hardware for high-frequency signals, including ADC interfacing and buffering techniques. Researchers develop methods for real-time processing and high-throughput transmission in scientific instruments.

15 papers

Low-Power Embedded System Design

This sub-topic addresses power optimization strategies in embedded processors and peripherals, such as dynamic voltage scaling and sleep modes. Researchers analyze trade-offs between performance, energy efficiency, and battery life in portable devices.

15 papers

FPGA Implementation of Web Servers

This sub-topic explores hardware-accelerated TCP/IP stacks and HTTP servers on FPGAs for embedded applications, focusing on soft-core processors. Researchers optimize for low-latency remote monitoring and control interfaces.

15 papers

Why It Matters

Embedded Systems and FPGA Design enable real-time control and data acquisition in industrial and consumer applications. A. Alheraish (2004) in "Design and implementation of home automation system" describes a GSM-based remote control system for machines and devices, supporting M2M communication in industry, maintenance, security, and banking with 313 citations. Yuequan Hu and Milan M. Jovanović (2008) in "LED Driver With Self-Adaptive Drive Voltage" present a driver circuit with self-adjusting preregulator voltage for efficient LED operation, cited 305 times in power electronics. D.G. Holmes and T.A. Lipo (2003) in "Pulse Width Modulation for Power Converters" address PWM techniques essential for power systems, with 2294 citations, impacting energy conversion and control.

Reading Guide

Where to Start

"Embedded System Design" by Peter Marwedel and Michael Engel (2010) is the starting point, as it provides an accessible overview and course material relating core embedded topics for newcomers.

Key Papers Explained

Peter Marwedel and Michael Engel (2010) in "Embedded System Design" lays the foundation for embedded principles, which D.G. Holmes and T.A. Lipo (2003) in "Pulse Width Modulation for Power Converters" apply to control in power systems, and A. Alheraish (2004) in "Design and implementation of home automation system" extends to practical IoT and remote monitoring implementations. Yuequan Hu and Milan M. Jovanović (2008) in "LED Driver With Self-Adaptive Drive Voltage" builds on these by addressing adaptive real-time regulation. Gao YU et al. (2009) in "Design of integrated system for heterogeneous network query terminal" connects to networked embedded designs.

Paper Timeline

100%
graph LR P0["A MODIFIED NINHYDRIN REAGENT FOR...
1954 · 3.0K cites"] P1["Design and implementation of the...
1988 · 720 cites"] P2["A mathematical model for lead-ac...
1992 · 634 cites"] P3["Pulse Width Modulation for Power...
2003 · 2.3K cites"] P4["Design and implementation of hom...
2004 · 313 cites"] P5["Design of integrated system for ...
2009 · 320 cites"] P6["Embedded System Design
2010 · 334 cites"] P0 --> P1 P1 --> P2 P2 --> P3 P3 --> P4 P4 --> P5 P5 --> P6 style P0 fill:#DC5238,stroke:#c4452e,stroke-width:2px
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Most-cited paper highlighted in red. Papers ordered chronologically.

Advanced Directions

Current work targets FPGA optimizations for sensor networks and high-speed transmission in uncertain control systems, with extensions to smart grid security and process optimization from related topics, though no recent preprints are available.

Papers at a Glance

# Paper Year Venue Citations Open Access
1 A MODIFIED NINHYDRIN REAGENT FOR THE PHOTOMETRIC DETERMINATION... 1954 Journal of Biological ... 3.0K
2 Pulse Width Modulation for Power Converters 2003 2.3K
3 Design and implementation of the Sun network filesystem 1988 Artech House, Inc. eBooks 720
4 A mathematical model for lead-acid batteries 1992 IEEE Transactions on E... 634
5 Embedded System Design 2010 Embedded systems 334
6 Design of integrated system for heterogeneous network query te... 2009 Journal of Computer Ap... 320
7 Design and implementation of home automation system 2004 IEEE Transactions on C... 313
8 LED Driver With Self-Adaptive Drive Voltage 2008 IEEE Transactions on P... 305
9 Compressing IP/UDP/RTP Headers for Low-Speed Serial Links 1999 304
10 Process migration in DEMOS/MP 1983 ACM SIGOPS Operating S... 282

Frequently Asked Questions

What is covered in embedded system design education?

Peter Marwedel and Michael Engel (2010) in "Embedded System Design" provide material for a first course, offering an overview of embedded system design and relating key topics to each other. The book motivates emphasis on embedded systems education. It covers resource-constrained computing integrated into devices.

How are FPGAs used in embedded systems?

FPGAs provide reconfigurable hardware for data acquisition, high-speed transmission, and real-time control in embedded systems. The field includes FPGA-based solutions for IoT, sensor networks, and industrial monitoring. These enable efficient processing in control applications.

What are applications of embedded systems in home automation?

A. Alheraish (2004) in "Design and implementation of home automation system" presents a remote control system using GSM cellular networks for M2M communication. It supports machines and devices in mobile networks for industry and security. The system enables wireless control of home devices.

How do embedded systems support power electronics?

D.G. Holmes and T.A. Lipo (2003) in "Pulse Width Modulation for Power Converters" detail PWM techniques for power conversion, applicable to embedded control. Yuequan Hu and Milan M. Jovanović (2008) in "LED Driver With Self-Adaptive Drive Voltage" describe adaptive regulators for efficient LED driving. These integrate into real-time embedded controllers.

What is the scope of the embedded systems research cluster?

The cluster includes 38,699 works on embedded systems, FPGA design, IoT, remote monitoring, sensor networks, and high-speed data transmission. It focuses on control applications and industrial parameter monitoring. Related areas cover real-time systems and web servers.

Open Research Questions

  • ? How can FPGA reconfigurability optimize high-speed data transmission in sensor networks for real-time IoT applications?
  • ? What methods improve energy efficiency in embedded control systems for power converters and battery modeling?
  • ? How do embedded systems integrate heterogeneous networks for remote monitoring and industrial data acquisition?
  • ? What architectures best support process migration and resource access in distributed embedded environments?
  • ? How can self-adaptive techniques in embedded drivers handle varying loads in real-time power electronics?

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