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Topic Review
Lithium-Ion Batteries-Energy Storage
Lithium-ion (Li-ion) batteries are a good energy storage solution for plug-in electric vehicles. However, the performance and health of these batteries is highly dependent on the use case, including operating temperature, power consumption profile, and control strategy (heavy forced alternating charge–discharge modes) imposed by the battery management system.
  • 954
  • 16 Dec 2021
Topic Review
External Human–Machine Interface of AVs
In future urban traffic, it is more likely that automated vehicles (AVs) will operate not in separated traffic spaces but in so-called mixed traffic environments where different types of traffic participants interact. Therefore, AVs must be able to communicate with other traffic participants, e.g., pedestrians as vulnerable road users (VRUs), to solve ambiguous traffic situations. Taking current traffic communication patterns into account, a combination of implicit communication via the driving behavior (e.g., deceleration, position in lane) and explicit communication via an external Human–Machine Interface (eHMI) seems to be a promising approach. The eHMI consists of an external interface connected to the vehicle, which can transmit explicit signals enabling interaction between AVs and other TPs.
  • 953
  • 15 Aug 2021
Topic Review
Actuators for Implantable Devices
The choice of actuators dictates how an implantable biomedical device moves. Specifically, the concept of implantable robots consists of the three pillars: actuators, sensors, and powering. Robotic devices that require active motion are driven by a biocompatible actuator. Depending on the actuating mechanism, different types of actuators vary remarkably in strain/stress output, frequency, power consumption, and durability. Most reviews to date focus on specific type of actuating mechanism (electric, photonic, electrothermal, etc.) for biomedical applications. With a rapidly expanding library of novel actuators, however, the granular boundaries between subcategories turns the selection of actuators a laborious task, which can be particularly time-consuming to those unfamiliar with actuation. 
  • 953
  • 07 Dec 2022
Topic Review
ML-Based LIB Fault Diagnosis
Fault detection/diagnosis has become a crucial function of the battery management system (BMS) due to the increasing application of lithium-ion batteries (LIBs) in highly sophisticated and high-power applications to ensure the safe and reliable operation of the system. 
  • 953
  • 16 Dec 2021
Topic Review
Integrated Green Hydrogen Production Processes
The thermochemical water-splitting method is a promising technology for efficiently converting renewable thermal energy sources into green hydrogen. Thermochemical water splitting uses a high-temperature source, e.g., nuclear energy, waste heat, or concentrated solar systems, to convert water into hydrogen and oxygen through cyclic chemical reactions. Several promising routes have been proposed for hydrogen production through green technologies such as biological processes (such as CO gas-fermentation, dark fermentation, etc.), electrical (such as alkaline electrolysis cell, anion exchange membrane electrolysis cell, proton exchange membrane electrolysis cell, solid oxide electrolysis cell, etc.), photonic (bio-photolysis, photofermentation, etc.), thermochemical, etc.
  • 953
  • 01 Mar 2022
Topic Review
Intrusion Detection System for SOME/IP-Based In-Vehicle Network
This research describes a hybrid AI and rule-based intrusion detection system for detecting SOME/IP communication threats in new automotive electronic electrical architectures.
  • 953
  • 24 May 2023
Topic Review
Blood-Plasma Self-Separation in Self-Driven Microfluidics
Blood plasma is the most commonly used biofluid in disease diagnostic and biomedical analysis due to it contains various biomarkers. The majority of the blood plasma separation is still handled with centrifugation, which is off-chip and time-consuming. Therefore, in the Lab-on-a-chip (LOC) field, an effective microfluidic blood plasma separation platform attracts researchers’ attention globally. Blood plasma self-separation technologies are usually divided into two categories: active self-separation and passive self-separation. Passive self-separation technologies, in contrast with active self-separation, only rely on microchannel geometry, microfluidic phenomena and hydrodynamic forces. Passive self-separation devices are driven by the capillary flow, which is generated due to the characteristics of the surface of the channel and its interaction with the fluid. Comparing to the active plasma separation techniques, passive plasma separation methods are more considered in the microfluidic platform, owing to their ease of fabrication, portable, user-friendly features.
  • 952
  • 12 Jul 2021
Topic Review
Wind Turbine Blades: End-of-Life Scenarios
Large expansion of wind energy is expected in next decades. At the same time, a significant proportion of the installed wind turbines, the generation installed in 2000s, will come to the end of their lifetime between 2020 and 2030. Many parts of wind turbines can be recycled, however, this is seldom the case for the composite wind blades. Wind turbine blades are developed and designed to sustain challenging service conditions and extraordinary mechanical and ennvironmental loads for several decades. Therefore, their afterlife destruction and separation into re-usable elements represents a challenge. In this review, strategies of end-of-life management of wind turbine blades are discussed. Various scenarios of end-of-life management of wind turbine blades are considered. “Reactive” strategies, designed to deal with ageing turbines, installed in 2000s, include improved maintenance and repair technologies, reuse, refurbishment and recycling.  “Pro-active strategies”, applicable to f new generations of wind turbines, include wind turbine blades with thermoplastic and recyclable thermoset composite matrices, as well as wood, bamboo and natural fiber based composites. 
  • 952
  • 23 Mar 2021
Topic Review
Fracture Toughness of FRP Composites Using Short Fibers
Fiber-reinforced plastic (FRP) composite laminates are widely used in the aerospace field, automotive industry, wind power generation, and civil infrastructure because of their lightweight and relatively high strength characteristics. Interlaminar fracture toughness (ILFT) is a quantitative measure of the ability of composite laminates to resist crack extension and an estimate of material toughness. 
  • 952
  • 31 May 2022
Topic Review
Sensor and Actuator Fault Diagnosis
Sensors and actuators are key components in the robot system, but their working environment is very complex, with electromagnetic interference, vibration, etc., which will affect the output of the sensors and then the actuators. Moreover, the variable load on manipulators is also a challenge for system state feedback or estimation. All of the above factors make the faults diagnosis of robot system sensors and actuators an urgent task. The DCNN is used to deal with sensor and actuator faults of robot joints, such as gain error, offset error, and malfunction for both sensors and actuators, and different fault types are diagnosed using the trained neural network.
  • 952
  • 29 Jun 2021
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