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Topic Review
Internet of Things-Based Control of Induction Machines
The Internet of Things (IoT) is introduced in systems with electrical machines, such as in electric drive systems, wind energy generating systems, and small and special machines, to remote monitor and control the operation for data acquisition and analysis. These systems can integrate with the equipment and retrofit the existing installations. At the end of the control loops there are always motors, or actuators, of big or small ratings, of rotating or linear movements, electrical or nonelectrical, which must produce the motion. With the IoT-based control of induction machine systems operators can remotely monitor parameters and obtain accurate real-time feedback during fast changing duty cycle operation. Thus, IoT creates multipurpose instruments in the remote control of induction machines. 
  • 905
  • 19 Feb 2024
Topic Review
Community Connected Microgrids
Renewable energy systems in the form of community microgrids, and grid-connected solar PV-storage are considered primary solutions for powering residential developments. The primary objectives for commissioning such systems include significant electricity cost reductions and carbon emissions abatement. Despite the proliferation of renewables, the uptake of solar and battery storage systems in communities and multi-residential buildings are less researched in the literature, and many uncertainties remain in terms of providing an optimal solution.
  • 904
  • 16 Jul 2021
Topic Review
DC Ultra-Fast Charging Station
The battery charging procedure has different definitions and requirements. One of the most important definitions is the battery C rating. The battery capacity is usually rated at 1C (1C current). A 400 V battery with 100 kWh capacity can be charged or discharged with 250 A within one hour. This means that with the use of 1 kA of current, the battery can be recharged in 15 min. Therefore, an increase in C rating yields a faster charging or discharging time. However, C rate increase has technically some limitations, including increases in internal energy losses, battery thermal tolerance, and reducing battery’s life-cycle. The 6C rate of charging is considered as an ultra-fast charging method according to the US Department of Energy (DOE). As a result, a trade-off exists between ultra-fast charging and battery health. Different possible configurations of DC ultra-fast charging stations are AC-coupled, DC-coupled, and hybrid-coupled. 
  • 904
  • 28 Oct 2022
Topic Review
Industrial Control Systems
Industrial control systems (ICSs) for critical infrastructure are extensively utilized to provide the fundamental functions of society and are frequently employed in critical infrastructure. Therefore, security of these systems from cyberattacks is essential.
  • 903
  • 20 Jun 2022
Topic Review
Multiport Single Element Mimo Antenna Systems
In response to the increasing demand for voice, data, and multimedia applications, the next generation of wireless communication systems is projected to provide faster data rates and better service quality to customers. Techniques such as Multiple-Input–Multiple-Output (MIMO) and diversity are being studied and implemented to meet the needs of next-generation wireless communication systems. Embedding multiple antennas into the same antenna system is seen as a promising solution, which can improve both the system’s channel capacity and the communication link’s quality. For small handheld and portable devices, embedding many antennas into a single device in a small area and at the same time providing good isolation becomes a challenge.
  • 902
  • 19 Jan 2023
Topic Review
Fall Detection and Activity Logging Using Motion Classification
The entry presents a novel approach to detect falls in people who use orthopedic walkers, especially in older people and people with limited mobility. Recognizing that walker users may not wear traditional wearable devices, such as bracelets, consistently, the researchers propose connecting an Internet of Things (IoT) device equipped with an inertial measurement unit (IMU) sensor directly to the walker. This setup aims to provide real-time fall detection and activity logging. To support this system, a data set capturing four distinct activities of walker users was collected and labeled: idle, motion, step, and fall.
  • 902
  • 27 Oct 2023
Topic Review
Application of Radio Frequency Identification in IoT Field
RFID (radio frequency identification) technology appeared nearly 70 years ago. Deployed more widely only from the early 2000s, it is now booming and its development is still accelerating. As its name indicates, its original function was the identification (of objects, animals, people) and its applications were then essentially aimed at traceability, access control and logistics. If this type of use is still relevant today with more and more new application contexts and more and more efficient RFID tags, RFID has also evolved by integrating new capabilities. These new tags, known as augmented tags, include an information capture function. With the explosion of connected objects and the emergence of the Internet of Things (IoT), this old technology that is RFID still has a promising future and will probably be more and more present in our private and professional environments in all fields: logistics, industry, agriculture, building, health and even space.
  • 901
  • 14 Nov 2022
Topic Review
Chipspeech
Chipspeech is a vocal synthesizer software which was created by Plogue with the goal of recreating 1980s synthesizers.
  • 901
  • 18 Nov 2022
Topic Review
Small-Signal Stability in Microgrid
The microgrid (MG) system is a controlled and supervised power system consisting of renewable energy (RE)-based distributed generation (DG) units, loads, and energy storage. The MG can be operated autonomously or while connected to the grid. Higher intermittencies and uncertainties can be observed in MGs compared to the conventional power system, which is the possible source of small-signal stability in MG systems. It can be seen as disturbances around the stable operating point, which potentially lead to the small-signal instability problem within MGs. Small-signal instability issues also emerge due to the lack of damping torque in the MG. The integration of power electronic devices and complex control algorithms within MGs introduces novel challenges in terms of small-signal stability and possible resonances. The occurrence of interaction in a low- or no-inertia system might worsen the stability margin, leading to undamped oscillatory instability. The interaction within the MG is characterized by various frequency ranges, from low-frequency subsynchronous oscillation to high-frequency ranges around the harmonic frequencies.
  • 899
  • 23 Apr 2023
Topic Review
Virtual Lab
VirtLAB is a Low-Cost Platform for Electronics Lab Experiments. The recent SARS-CoV2 pandemic has put a great challenge on university courses. Electronics teaching requires real laboratory experiences for students, which cannot be realized if access to physical infrastructures is prohibited. A possible solution would be to distribute to students, at home, electronics equipment suitable for laboratory experiments, but no reasonable product is currently available off-the-shelf.
  • 897
  • 22 Jul 2022
Topic Review
Improvement in Light Extraction Efficiency
As one of the important performance indicators of Micro-LEDs, external quantum efficiency (EQE) refers to the ratio of the final emitted photon number to the injected carrier number, which can be obtained by the product of the light extraction efficiency (LEE) and internal quantum efficiency (IQE). Therefore, EQE can be improved by improving the LEE. 
  • 897
  • 13 Jul 2023
Topic Review
IoT-Based Hybrid AC/DC RES Environment
Smart microgrids, as the foundations of the future smart grid, combine distinct Internet of Things (IoT) designs and technologies for applications that are designed to create, regulate, monitor, and protect the microgrid (MG), particularly as the IoT develops and evolves on a daily basis. Communication networks are critical components of HRES because they allow data to flow between data sources (sensors and meters), control centers, and controllers. The data flow from various elements establishes the system architecture in addition to facilitating the control operation and remote monitoring. Sensing, communication, processing, and actuation will all benefit from IoT technology, which will facilitate a variety of MG applications.
  • 893
  • 08 Oct 2022
Topic Review
Circular Design Principles Applied on Dye-Sensitized Solar Cells
In a world with growing demand for resources and a worsening climate crisis, it is imperative to research and put into practice more sustainable and regenerative products and processes. Especially in the energy sector, more sustainable systems that are recyclable, repairable and remanufacturable are needed. One promising technology is dye-sensitized solar cells (DSSCs). They can be manufactured with low energy input and can be made from non-toxic components. The concept of Circo Track, a method developed by the Technical University of Delft, was applied to DSSCs and investigated which design concepts and business models are applicable. This method enables companies to transform a product that is disposed of after its useful life into one that can be used for longer and circulates in material cycles. 
  • 893
  • 25 Nov 2022
Topic Review
Bioretention Systems Optimization and Design Characterization Model
Urban stormwater has become a persistent concern on a global scale due to its adverse environmental implications. It is the prime vector of aquatic contaminants worldwide that causes pollutants when water bodies drain. Bioretention systems are increasingly used to alleviate setbacks associated with stormwater run-off in urban locales. It has played a substantial role in the implementation of low impact development (LID), a concept that addresses urban stormwater problems caused by land changes and development. The use of LID technologies is an innovative approach.
  • 891
  • 30 Jun 2022
Topic Review
Applications of Optical Sensors in CMOS
CMOS (complementary metal-oxide semiconductor)  technology allows integration with the CMOS readout and control electronics in the same microdevice, featuring high-volume fabrication with high-reproducibility and low-cost. Optical sensors in CMOS are being used extensively in the medical field as a key element in spectroscopy analysis. More specifically, they have been a great advance in the detection of gastrointestinal dysplasia and in the studies of Malaria infection. Furthermore, they have been applied in labs-on-a-chip and, more recently, in organs-on-a-chip devices and X-ray imaging. Optical sensors in CMOS are also promising solutions for other types of applications such as, for example, in photovoltaic (PV) sub-modules to measure the angles of incident light in the PV panels.
  • 891
  • 27 Feb 2024
Topic Review
Energy Optimization Techniques in UAV-Based Cellular Networks
Wireless communication networks have been witnessing unprecedented demand due to the increasing number of connected devices and emerging bandwidth-hungry applications. Although there are many competent technologies for capacity enhancement purposes, such as millimeter wave communications and network densification, there is still room and need for further capacity enhancement in wireless communication networks, especially for the cases of unusual people gatherings, such as sport competitions, musical concerts, etc.  Unmanned aerial vehicles (UAVs) have been identified as one of the promising options to enhance capacity due to their easy implementation, pop-up fashion operation, and cost-effective nature. The main idea is to deploy base stations on UAVs and operate them as flying base stations, thereby bringing additional capacity where it is needed. However, UAVs mostly have limited energy storage, hence, their energy consumption must be optimized to increase flight time.
  • 890
  • 17 Jul 2023
Topic Review
Topology and Symmetry Analysis of Power Converters
Power converters can convert the electrical energy output by power source into specific forms required by target device. They are widely used in various fields such as electrification, transportation, and power systems, and are the core components of the systems. “Symmetry” means “the quality of being very similar or equal” or “the exact match in size and shape between two halves, parts or sides of something”. Symmetry is an important attribute of power converters. Whether it is a two-level, three-level, or multi-level converter, they all have a certain symmetry in structure, which is referred to as "Topological Symmetry of Power converters". This topological symmetry means that the voltage/current output from each phase of the converter are also symmetrical, with only a specific phase angle difference. Studying this symmetry is helpful for the design, operation analysis, and fault diagnosis of power converters.
  • 888
  • 19 Feb 2024
Topic Review
Graphene Nanoplatelets Screen-Printed on Woven and Knitted Fabrics
Although the force/pressure applied onto a textile substrate through a uniaxial compression is constant and independent of the yarn direction, it should be noted that such mechanical action causes a geometric change in the substrate, which can be identified by the reduction in its lateral thickness. Therefore, researchers investigate the influence of the fabric orientation on both knitted and woven pressure sensors, in order to generate knowledge for a better design process during textile piezoresistive sensor development.
  • 885
  • 29 Aug 2022
Topic Review
Versatile Electronics for Microwave Holographic RADAR
The NATO SPS G-5014 project has shown the possibility of using a holographic RADAR for the detection of anti-personnel mines. To use the RADAR on a robotic scanning system, it must be portable, light, easily integrated with mechanical handling systems and configurable in its operating parameters for optimal performance on different terrains. The novel contribution is to use software programmable electronics to optimize performance and to use a time reference to obtain synchronization between the RADAR samples and the position in space, in order to make it easy to integrate the RADAR on robotic platforms. 
  • 884
  • 14 Oct 2022
Topic Review
Recycled Silicon and Silicon-Based Thermoelectrics for Power Generation
Silicon is the second most earth-abundant element in the earth’s crust, and the most abundant element used in modern-day technologies. Its popularity partially stems from the nontoxic and relatively unreactive nature of derivatives, such as silica and silicates, at room temperature. Consequently, the sheer volume of silicon being used has accelerated the rate of production of waste materials.
  • 882
  • 11 Mar 2022
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