Academic literature on the topic 'Peripheral Interface Controller etc'
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Journal articles on the topic "Peripheral Interface Controller etc"
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Chandra, Mohan M., and A. Arivazhagan. "Vehicle Safety Speed Controller under Driver Fatigue Using Eye Blink Sensor." International Journal of Trend in Scientific Research and Development 2, no. 1 (2017): 1373–76. https://doi.org/10.31142/ijtsrd7130.
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Accidents occurred at night time are mainly due to carelessness of human being such as sleepiness. To avoid that we design and develop a control system based on intelligent electronically controlled automotive braking system. It consists of IR transmitter and receiver circuit, control unit, pneumatic breaking system. The IR sensor is used to monitor the eye blink movement. If the eye blink movement varies beyond the normal condition set 3 sec the IR sends the control signal to the breaking system through electronic control unit ECU . Thus the pneumatic breaking system is used to break the system and alerts the driver to not sleep. From this accidents can prevent before it occurs. Chandra Mohan M | Arivazhagan. A "Vehicle Safety Speed Controller under Driver Fatigue Using Eye Blink Sensor" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-1 , December 2017, URL: https://www.ijtsrd.com/papers/ijtsrd7130.pdf
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Cui, Rongrong. "Design of New LED Curtain Wall Controller and Its Effect in Architectural Decoration." Journal of Nanoelectronics and Optoelectronics 18, no. 6 (2023): 711–17. http://dx.doi.org/10.1166/jno.2023.3446.
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In recent years, LED with high brightness or ultra-high brightness has appeared. Because of its low production cost, it has been widely used. Compared with other display media, LED has the advantages of rich display content, wide dynamic range, vivid picture, no pollution, long life, etc., so it is used in building curtain wall facade decoration. This research designs LED curtain wall control system, the use of SD600 chip dimming control of LED, the use of absorbing current mode LED drive, further design of single SD600 chip application circuit, multi-SD600 chip application circuit. LED curtain wall display text need to design the corresponding graphic processing hardware, the hardware is composed of ARM microprocessor LPC2210 and its related peripheral circuits. The core chip of the LPC2210 processor chip needs 1.8 V working voltage, and the I/O interface voltage is 3.3 V, so it is necessary to design the corresponding power circuit; The system clock is adjusted through the internal PLL circuit to make the system run faster and design its crystal oscillator circuit; The power monitoring chip CAT1025JI-30 is adopted to build reset circuit, 20-pin interface type JTAG interface circuit; It is considered that the UARTO interface can’t be directly connected with the RS232 interface of PC, the MAX3232 chip is introduced for level conversion, and the serial interface circuit based on LPC2210 is designed. In the experiment, the new technology is used for outdoor lighting LED curtain wall construction, and the development tool uses the ADS1.2 provided by ARM company. The μC/OS-II embedded operating system is introduced to control the graphic processing hardware resources, reading the file from the SD card, and writing the text file and BMP file into the three-dimensional array, the corresponding text and pattern effect are displayed in the LED curtain wall.
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Xing, Ya Min, and Sheng Hu Liu. "Research on LWD Transmit Circuit Based on DDS Technology." Applied Mechanics and Materials 220-223 (November 2012): 1052–55. http://dx.doi.org/10.4028/www.scientific.net/amm.220-223.1052.
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A new type of logging transmit circuit applied to measurement while drilling (MWD) based on DDS technology is presented. As for logging instrument, Electromagnetic wave source is very important .The logging transmit circuit adopts TMS320VC33 series digital signal processing chip as main controller, in addition, LWD(logging while drilling) signal waveform generation circuit, peripheral signal processing circuit, DDS module, DSP and AD9850 interfaces, etc have been given.2MHz and 400KHz digital transmit circuit mainly composed of DDS AD9850 , which carries out the shift of the phase and the limit of the amplitude easily ,has been designed and debugged successfully. it is used to substitute for the conventional transmit circuit ,so the all-digital transmit channel of phase shift is achieved. The experimental results show that the logging transmit circuit for MWD is feasible.
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More, Anushree Deepak, Rakshita Devendra Godiyal, Hiral Gachake, and Ashwini Balaji Ghodake. "Robust Pi Surveillance Robot." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (2022): 154–58. http://dx.doi.org/10.22214/ijraset.2022.41173.
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Abstract: Remote surveillance of our house, as well as office areas, has become an important aspect. Human surveillance is achieved by moving (troop or equipment) personnel near sensitive areas to constantly monitor the area. But humans have their limitations, and deployment in inaccessible places is always impossible. We have developed a robot that can be used for video surveillance & monitoring which can be controlled through a GUI. Using this project, we put forward a surveillance robot with an Interface Board of the Raspberry Pi and Software to fulfill Real Time requirements. The Raspberry Pi Robot has a personalized digital device with peripherals such as Raspberry PI, LED lights, a Personalized Camera, Speaker for text to voice conversion and security or threat alarms, a range sensor, etc. The base controller of the robot will be the Raspberry Pi 3. A webcam attached to the Pi monitors the area with Live Streaming. The live streaming ability of the Pi allows the camera feed to be analyzed from any location using the internet. For detecting the obstacles we had used an ultrasonic range sensor along with it to give commands or pass on messages wehave installed a speaker which will convert text to voice which is an E-speak technique. With such a system, every user will feel more safe, secure, and sheltered while they're not at their place of residence or when they've left their kids and geriatric alone at home.
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Mykola, Anishchenko, and Zybenkov Dmytro. "ROBOTIC TECHNOLOGICAL CELLULTRASONIC FLAW DETECTION." Collection of scholarly papers of Dniprovsk State Technical University (Technical Sciences) 2, no. 43 (2023): 121–31. http://dx.doi.org/10.31319/2519-2884.43.2023.13.
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Ultrasonic flaw detection is the most versatile non-destructive testing method for detecting defects in various materials. The aim of this work is to develop a robotic technological cell for ultrasonic flaw detection of welded products. To achieve this goal, we selected the necessary equipment, developed an algorithm for the control system, and wrote control and data collection programs. In addition to identifying the product defect, the PC-based control system also ensures safety during the diagnostic process.
 The technical support of the cell consists of an ultrasonic flaw detector "EPOCH 650" with a rectangular pulse generator and a digital receiver, an industrial robot Mitsubishi Electric MELFA RV-FR series, a work table for the required part orientation, inductive sensors for identifying the installation of the part, light barriers to ensure safe operation of the cell and a control system.
 The cell control system is implemented in the form of a chalkboard and includes a central processing device for cell control, a robot control processor for implementing the robot's trajectory and communication with the robot controller, a module for communication with peripheral equipment, and a data logging module for registration, recording and sharing of events in the control system, a digital input module for receiving digital signals of 0 or 24 V DC from contact type sensors, manual control buttons, status signals from alarm systems, positioning drives, etc.
 The cell software ensures the implementation of control algorithms and consists of a control program to control the robot's movements, an executive program to ensure the control system's analysis of signals from the flaw detector, a security system, and user interaction via the system interface, The interface system receives data from the PLC and is responsible for graphically displaying information about the control system.
 The paper presents the results of experimental research and simulation, which confirm the efficiency and effectiveness of the developed algorithms and control programs. By determining the optimal values of the speeds of movement and rotation of the robot links during their simultaneous movement, the speed and productivity of the cell are increased.
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Adie, Awafung Emmanuel, Faithpraise Fina, Wilson Ibu, and Paul Anyin. "Stepper Motor Controlled by PIC 16F84 Microcontroller." NEWPORT INTERNATIONAL JOURNAL OF BIOLOGICAL AND APPLIED SCIENCES 6, no. 1 (2025): 14–20. https://doi.org/10.59298/nijbas/2025/6.1.142000.
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Most times in engineering and other fields, engines need to be transformed from one form to another, in circuits and most components we are familiar with, electrical engines, impulses, digital information, etc need to be changed from one level to another, a motor does this, be it in any kind, pending on the desired function. This literature review examines various research studies that have been done using the PIC 16F84 microcontroller to control stepper motors. The PIC 16F84 is a popular choice for stepper motor control applications due to its simplicity, low cost, and ease of programmability. This review highlights several key control techniques implemented using the PIC 16F84, including full-step mode, half-step mode, closed-loop control with position feedback, and speed control. The peripheral interfacing aspects are also discussed, covering the integration of stepper motor driver circuits, rotary encoders, and user interface components. The firmware development approaches for the PIC 16F84 are explored, demonstrating how researchers have programmed the microcontroller’s digital I/O, timers, and interrupts to precisely control the stepper motor windings and respond to feedback signals. While the PIC 16F84 has proven to be a capable platform for stepper motor control, the review also identifies some limitations, such as the microcontroller’s restricted resources and potential scalability challenges as the complexity of the control system increases. Suggestions for future research include exploring more advanced microcontrollers, integrating the PIC 16F84 with additional hardware, and developing more sophisticated control algorithms to enhance the performance and robustness of the stepper motor control systems. The CMOS circuit stands as the drive circuit between the PIC IC and the stepper motor which provides precision in advanced control methods of design and production. Keywords: Stepper motor, Controlled, PIC 116F84, Microcontroller
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Hashim, Norlezah, Fakrulradzi Idris, Ahmad Fauzan Kadmin, and Siti Suhaila Jaapar Sidek. "Automatic traffic light controller for emergency vehicle using peripheral interface controller." International Journal of Electrical and Computer Engineering (IJECE) 9, no. 3 (2019): 1788. http://dx.doi.org/10.11591/ijece.v9i3.pp1788-1794.
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Traffic lights play such important role in traffic management to control the traffic on the road. Situation at traffic light area is getting worse especially in the event of emergency cases. During traffic congestion, it is difficult for emergency vehicle to cross the road which involves many junctions. This situation leads to unsafe conditions which may cause accident. An Automatic Traffic Light Controller for Emergency Vehicle is designed and developed to help emergency vehicle crossing the road at traffic light junction during emergency situation. This project used Peripheral Interface Controller (PIC) to program a priority-based traffic light controller for emergency vehicle. During emergency cases, emergency vehicle like ambulance can trigger the traffic light signal to change from red to green in order to make clearance for its path automatically. Using Radio Frequency (RF) the traffic light operation will turn back to normal when the ambulance finishes crossing the road. Result showed the design is capable to response within the range of 55 meters. This project was successfully designed, implemented and tested.
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Norlezah, Hashim, Idris Fakrulradzi, Fauzan Kadmin Ahmad, and Suhaila Jaapar Sidek Siti. "Automatic traffic light controller for emergency vehicle using peripheral interface controller." International Journal of Electrical and Computer Engineering (IJECE) 9, no. 3 (2019): 1788–94. https://doi.org/10.11591/ijece.v9i3.pp1788-1794.
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Traffic lights play such important role in traffic management to control the traffic on the road. Situation at traffic light area is getting worse especially in the event of emergency cases. During traffic congestion, it is difficult for emergency vehicle to cross the road which involves many junctions. This situation leads to unsafe conditions which may cause accident. An Automatic Traffic Light Controller for Emergency Vehicle is designed and developed to help emergency vehicle crossing the road at traffic light junction during emergency situation. This project used Peripheral Interface Controller (PIC) to program a priority-based traffic light controller for emergency vehicle. During emergency cases, emergency vehicle like ambulance can trigger the traffic light signal to change from red to green in order to make clearance for its path automatically. Using Radio Frequency (RF) the traffic light operation will turn back to normal when the ambulance finishes crossing the road. Result showed the design is capable to response within the range of 55 meters. This project was successfully designed, implemented and tested.
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BREZEANU, Ionelia-Bianca, and Silviu ISARI. "Improved Serial Peripheral Interface Controller Based on Scan Architecture." Romanian Journal of Information Science and Technology 27, no. 2 (2024): 241–51. http://dx.doi.org/10.59277/romjist.2024.2.10.
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A high performance, digital serial controller having a self-test-based architecture is presented. A standard architecture able to achieve the targeted functionality was modified in order to contain the test mode circuitry for testability improvements. After the importance of creating digital architectures adapted for testability is underlined, we present the high frequency serial controller for analog switches. This block was adjusted for test reasons and implemented into a 3 V CMOS technology. The block is integrated together with input-output pad structures forming an entire chip structure for which the layout was implemented. Based on schematic design simulations, timing checks and defects analysis, the proposed architecture is confirmed.
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Sim, K. S., C. P. Tso, G. Y. Lim, and M. C. Foo. "Hardware Design of Bipedal Locomotion Robot." Applied Mechanics and Materials 705 (December 2014): 174–77. http://dx.doi.org/10.4028/www.scientific.net/amm.705.174.
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This paper aims to design and develop a control system for the biped robot. The Peripheral Interface Controller (PIC) main controller board is designed to control the servo motor controller board which assures the biped robot to maintain its stability. This robot consists of PIC microcontroller, servo controller, servo motor, and sensors. The bracket parts are fabricated to mount the servo motors by constructing the biped structure. The PIC microcontroller provides interface among the sensors input, servo motor controller, and servo motor. The biped robot is able to walk in a stable motion under a flat plane. The sensors feedbacks enable the controller to adjust the stability of biped robot. The biped robot is able to perform walking steps and crouching action through the configuration of trajectory angle values of the servo motors.
Dissertations / Theses on the topic "Peripheral Interface Controller etc"
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Karim, Rafid, and Haidara Al-Fakhri. "Smart Door Lock : A first prototype of a networked power lock controller with an NFC interface." Thesis, KTH, Radio Systems Laboratory (RS Lab), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-134894.
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Most major cell phone manufacturers have been releasing cell phones equipped with Near Field Communication (NFC). At the same time there is also increasing use of mobile payments and user verification with the use of the NFC technology. These trends indicate both the increasing popularity and great potential for increased use of NFC in today’s society. As a result NFC has a huge potential to simplify our everyday tasks, ranging from paying for items to accessing our office or home. In this context we will focus on using NFC together with a Power over Ethernet (PoE) powered circuit board and NFC reader to realize a simple system for granting access to open a locked door. One of the purposes of this realization is to explore what services can be realized when such a system is connected to the home/building network and connected to the Internet. A second purpose is to learn how to use network attached devices, as the concept of the Internet of Things is considered by many to be a driving force in the next generation Internet. This project uses very in expensive and low power hardware, as the number of devices is potentially very large and thus in order to minimize the technology’s impact on the environment we must consider how to minimize the power used – while maintaining the desired user functionality. This bachelor’s thesis project made it possible for a PoE powered circuit board containing a MSP430 microcontroller to work along with a NFC reader, which was connected through the Serial Peripheral Interface (SPI). We hope that the end result of this project will lead to a simpler life by exploiting this increasingly ubiquitous technology. For example, a homeowner could send a one-time key to a repair person who is coming to fix their sink. Similarly a homeowner could send a key to their neighbor which is valid for two weeks so that their neighbor could come into their home to water the plants while they are away on vacation. Another example is lending your apartment key to a friend while you are out of town.<br>Det blir allt vanligare med närfältskommunikation (NFC) i dagens samhälle, mobiltelefons-tillverkarna börjar utveckla nya telefoner med NFC teknik inbyggd, samtidigt som användningen av NFC ökat. Det sker även en utveckling inom mobila betalningar och användar-verifiering med användning av NFC, då NFC förenklar detta. Med detta sagt kommer vi att arbeta med detta i detta kandidatexamens-arbete där vi fokuserar på NFC samt Power over Ethernet som använder MSP430 chippet som kärna. Med dessa enheter kombinerade kommer en enkel rörelse med ett NFC kort över en NFC läsare som sedan skall ge åtkomst till en låst dörr. Detta i större kombination med en Internetuppkoppling kunna ge ägaren möjligheten att kunna skicka ut dörrnycklar till andra användare. I detta kandidatexamensarbete gjorde vi det möjligt för ett PoE kretskort bestående av ett MPS430 mikroprocessor att samarbeta med en NFC läsare genom SPI protokollet. Genom att utveckla detta projekt hoppas vi att vårt slutresultat leder till en enklare delning av nycklar med hjälp av denna teknologi.
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Feltane, Saâdi. "Conception et réalisation d'un concentrateur de périphériques." Paris 6, 1986. http://www.theses.fr/1986PA066343.
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Nous avons essayé dans les architectures de machines que nous avons développé de dissocier le CPU du processeur d'e/s. De cette manière, si l'on change de cpu, le processeur d'e/s n'est plus à rebâtir. La ligne série avec les fibres optiques peut supporter des débits importants. L'efficacité du système dépend de la manière dont est gérée cette ligne. Si le cpu adresse une requête au processeur d'e/s et qu'il attende que la requête soit exécutée pour en envoyer une autre, le système va être lent car les périphériques vont être inactifs pendant le temps de transfert de l'information sur la ligne série. Nous avons imaginé une gestion de la ligne série telle que pendant le traitement d'une requête, les autres requêtes continuent à arriver: de cette manière, les périphériques fonctionnent à leur pleine vitesse. Nous avons utilisé pour cela le plus simple protocole de dialogue: la procédure on/off
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Camors, Damien. "Vision périphérique, caractérisation et suppléance de ses fonctions spatiales." Thesis, Toulouse 3, 2015. http://www.theses.fr/2015TOU30115/document.
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La perte de vision périphérique (vision tubulaire) a pour conséquence de nombreux déficits qui réduisent fortement l'autonomie des personnes qui en sont atteintes et par conséquent leur qualité de vie. Nombre de ces déficits témoignent d'une cognition spatiale dégradée mettant en jeu des relations étroites entre vision périphérique et représentations spatiales. Le double objectif de ce travail de thèse consiste à mieux comprendre la nature de ces relations et, sur la base de ces connaissances, contribuer à l'émergence de dispositifs d'assistance plus adaptés et performants, capables de suppléer l'absence de vision périphérique. Dans un premier temps, je me suis intéressé au rôle de la vision périphérique dans la construction de représentations spatiales égocentrées. J'ai d'abord collaboré à une expérience de psychophysique impliquant la détection en vision périphérique de cibles visuelles situées soit droit-devant, soit excentrées par rapport à l'axe du corps. En mesurant les temps de réaction nous avons pu démontrer que les sujets humains répondaient plus rapidement aux cibles présentées droit-devant qu'aux cibles excentrées. J'ai pris en charge une deuxième étude complémentaire portant sur le lien entre ce traitement sensoriel privilégié du droit-devant en vision périphérique et la dynamique des saccades oculaires de recentrage. En comparant les dynamiques de pro-saccades et d'anti-saccades de recentrage ou d' " excentrage ", j'ai pu mettre en évidence que la supériorité dynamique des saccades de recentrage guidées par la vision périphérique reposait à la fois sur des facteurs sensoriels et oculomoteurs. Ces travaux révèlent l'intégration précoce de signaux visuels et oculomoteurs en vision périphérique, pouvant servir à localiser les éléments visuels par rapport à soi et à privilégier le traitement des éléments situés dans l'axe droit-devant. Dans un deuxième temps, mes travaux ont abordé l'influence de la vision périphérique dans les représentations spatiales allocentrées. Pour étudier l'implication de la vision périphérique dans le codage allocentré, j'ai réalisé une expérience impliquant une tâche de pointage vers des cibles visuelles en vision centrale, accompagnées ou non d'indices visuels à différentes distances en vision périphérique. Les résultats obtenus montrent que des indices visuels capturés par la vision périphérique peuvent effectivement contribuer au codage allocentré d'une cible fixée, et ce même lorsque ces indices périphériques doivent être extraits de scène visuelles complexes en moins de 200 ms. Dans une étude complémentaire, j'ai montré que l'utilisation de ces indices allocentrés situés en périphérie avait un véritable rôle fonctionnel, accélérant les recherches visuelles. Ainsi, ces travaux révèlent une implication fonctionnelle forte de la vision périphérique dans l'extraction des relations spatiales entre éléments présents dans l'environnement visuel. J'ai voulu, durant la dernière partie de ma thèse, initier le développement d'un dispositif d'assistance dont la finalité est de suppléer les fonctions spatiales, égocentrées et allocentrées, de la vision périphérique. Comme preuve de concept, mon travail a consisté à concevoir et développer un dispositif tactile placé sur le poignet et capable de communiquer la position spatiale d'objets d'intérêt pour en simplifier leurs recherches visuelles. Les résultats obtenus chez des sujets sains avec un champ visuel artificiellement réduit (10°) montrent que l'interface tactile permet d'accélérer par trois la vitesse de recherche visuelle. Des résultats similaires ont été observés chez une personne atteinte de glaucome (champ visuel de 10x15°). Ma thèse pluridisciplinaire permet d'apporter un nouvel éclairage sur l'implication de la vision périphérique dans la construction de représentations spatiales, et elle propose de nouvelles pistes pour le développement de dispositifs d'assistance adaptés aux personnes atteintes de vision tubulaire<br>The loss of peripheral vision (tunnel vision) leads to numerous deficits, reducing both independence and quality of life. These deficits reflect spatial cognition impairments, and highlight the close relationship between peripheral vision and spatial representations. This thesis has two main objectives: reaching a better understanding of the nature of these relationships, and using the acquired knowledge in order to propose adaptive, performant and innovative assistive devices able to overcome the peripheral loss. At first, I address the role of peripheral vision in egocentric space coding. I collaborated in a psychophysics experiment, involving detection of visual objects placed in peripheral vision. The visual objects formed similar images on the retina and differed only with respect to their egocentric location: either straight-ahead or eccentric with respect to the head/body midline. We found that straight-ahead objects elicit consistently shorter behavioral responses than eccentric objects. I took in charge a second study evaluating the link between the privileged sensory processing of the straight ahead direction and the dynamic of ocular saccades. Comparison between centripetal and centrifugal pro-saccades and anti-saccades revealed that the superior dynamic of centripetal saccades comes from both sensory and oculomotor factors. These works reveal the early integration of both visual and oculomotor signals in peripheral vision, leading to egocentric representations in which the straight ahead direction is highlighted. Secondly, I investigated the influence of peripheral vision in extracting allocentric spatial representations. In order to assess the role of peripheral vision in allocentric coding, I performed a memory-based pointing task toward previously gazed targets, which were briefly superimposed with visual cues placed at different eccentricities. The results showed that visual cues in peripheral (>10°) vision can contribute to the allocentric coding of a fixated target. A complementary experiment showed that these peripheral allocentric cues play a functional role, notably by facilitating visual searches. These works highlight the importance of peripheral vision in extracting functional spatial relationships between distant elements of the visual environment. Finally, I wanted to promote the development of new assistive devices, able to substitute both egocentric and allocentric spatial functions of the peripheral vision. As a proof of concept, I designed and evaluated a tactile interface mounted on wrist, communicating the spatial location of specific objects and facilitating visual search. Results showed that healthy subjects with artificial tunnel vision (10°) were able to increase by three visual search speeds thank to this tactile interface. Similar results were obtained on a glaucoma subject (field of view 10x15°). My multidisciplinary thesis highlights new roles of peripheral vision in spatial representations and proposes an innovative solution to develop assistive device for tunnel vision
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Tsai, Yu-Chieh, and 蔡宇傑. "Design and Implementation of Controller Peripheral and Communication Interface of a Three-Phase Bi-directional Inverter System." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/61719861020163370199.
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碩士<br>國立中正大學<br>電機工程研究所<br>99<br>This thesis presents design and implementation of the controller peripheral and communication interface of a three-phase bi-directional inverter system, which will be applied to a dc microgrid. Based on the basic concept of smart grid, peripheral and communication interfaces of a bi-directional inverter system using two microcontrollers RX62T are established. By considering further expansion, three fully developed communication interfaces, I2C, UART and SPI, are chosen, and their structure, communication principle and characteristics are analyzed and compared. In order to obtain power information and allow users to understand system operation, this study selects FRAM and SD card as memory, and Timer and LCD module as peripheral, to illustrate the communication principle and hardware architecture. Finally, this study designs the driver of peripheral and communication interfaces, which are combined with three-phase bi-directional inverter circuits to verify its correctness and feasibility.
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Tsai, Ya-Huei, and 蔡雅惠. "Design and Implementation of Controller Peripheral and Communication Interface of a Single-Phase Bi-directional Inverter System." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/66891912143664299845.
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碩士<br>國立中正大學<br>電機工程研究所<br>99<br>This thesis presents design and implementation of the controller peripheral and communication interface of a single-phase bi-directional inverter system, which is applied to a PV dc power distribution system. Based on the concept of constructing a smart grid, two microcontrollers TMS320LF2406A are adopted to realize the controller peripheral and communication interface for a single-phase bi-directional inverter system. Based on the SCI protocol combined with ZigBee or Bluetooth wireless module to achieve remote monitoring, and the SPI protocol to implement synchronous communication between the two microcontrollers, the communication principle and structure are analyzed and compared. In order to access the related information any time, an EEPROM is used as an external memory, and LCM is combined with the MPPT to display its dynamic information. Finally, the peripheral and communication interfaces combined with a single-phase bi-directional inverter were designed and implemented to verify its feasibility and accuracy.
Book chapters on the topic "Peripheral Interface Controller etc"
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Riener Robert and Burgkart Rainer. "A New Haptic Interface for VR Medical Training." In Studies in Health Technology and Informatics. IOS Press, 2002. https://doi.org/10.3233/978-1-60750-929-5-388.
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Successful applications of haptic displays are limited to tool-based interfaces that simulate haptic effects on surgical and other medical instruments. However, no satisfactory haptic display exist so far, that enable the simulation of high fidelity palpation of human tissue or body segments. Existing approaches developed for medical training fail due to unrealistic haptic effects, time-consuming donning and doffing, and inconvenient use (e.g., mechatronic tactile and kinesthetic displays) or due to restricted function and adjustability (e.g., passive mannequins). The key idea of the new haptic interface is to attach artificial organs or segments (e.g. a plastic leg) to a force actuating mechatronic unit (e.g. robot). A set of different materials combined in certain layers yield components that look and feel like real objects. When the user touches the artificial object the contact forces and position changes are measured and fed into a model-based controller. Thus, the actuator moves the object so that the user gets the impression that he had induced the movement. The new haptic display has been verified with a setup developed for the training of functional joint evaluation after knee injuries. Compared to classical approaches, this display is convenient to use, provides realistic tactile properties and can be partly adjusted to different system properties (e.g. pathological joint properties). This kind of new interface can be applied to many different medical applications, where the clinician directly touches human limbs or tissue, such as in obstetrics, reanimation, organ palpation, etc.
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"Network Services." In Challenges, Opportunities, and Dimensions of Cyber-Physical Systems. IGI Global, 2015. http://dx.doi.org/10.4018/978-1-4666-7312-0.ch013.
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A novel framework formed from a collection of independent agents that interact with each other is determined to provide a network service. Agents in this structure have the capability to perform independent activities such as duplication, migration, etc. A new method is developed in this chapter by means of genetic algorithms to change the behavior of agents over peers and also to improve the network service performance in a distributed and well planned way. Architecture with a remote control device, Personal Universal Controller (PUC), is described. The PUC provides two-way communication with the applications for copying specification for its functionality and constructing an interface for monitoring that electrical device. The requirements of every application hold the information about its dependency information and availability of appliance conditions. The network protocols, such as Service Discovery Protocols, are explained with their types and functionality.
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Babu, C. V. Suresh, S. Abirami, and Sharon Manoj. "AI-Based Carthage Administration Towards Smart City." In Advances in Systems Analysis, Software Engineering, and High Performance Computing. IGI Global, 2023. http://dx.doi.org/10.4018/978-1-6684-8602-3.ch001.
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The main objective of this proposed project is to manage the movement of people and goods efficiently. This traffic management system is based on AI and deep learning, which works with a traffic signal controller, vehicle classifier, and fine system. In this project, the programmable peripheral interface's buffer and ports are used to connect the traffic lights to the microprocessor system. As a result, the traffic lights can be turned ON or OFF automatically. The Interface Board was created to operate with the parallel port of the microprocessor system. A vehicle classifier is a vision-based vehicle classifier that uses machine learning algorithms to recognize vehicles and trucks in video pictures. Drivers and owners of motor vehicles who disobey traffic laws are subject to a fine system. When a traffic challenge is issued, it suggests that the recipient is liable to pay a fine that varies in amount according to the specific type of traffic infringement that was observed.
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M. Boland, Hannah, Morgan I. Burgett, Aaron J. Etienne, and Robert M. Stwalley III. "An Overview of CAN-BUS Development, Utilization, and Future Potential in Serial Network Messaging for Off-Road Mobile Equipment." In Technology in Agriculture [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.98444.
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A Controller Area Network (CAN) is a serial network information technology that facilitates the passing of information between Electronic Control Units (ECUs, also known as nodes). Developed by BOSCH in 1986 to circumvent challenges in harness-connected systems and provide improved message handling in automobiles, the CAN interface allows broadcast communication between all connected ECUs within a vehicle’s integrated electronic system through distributed control and decentralized measuring equipment. Since the early uses of CAN in car engine management, improvements in bitrate, bandwidth, and standardization protocols (such as ISO 11898 and SAE J1939) have led to CAN utilization in various industry applications, such as factory automation, aviation, off-highway vehicles, and telematics. Alternative wired and wireless technologies have been used to connect and network with CAN-BUS (such as Ethernet, Bluetooth, Wi-Fi, ZigBee, etc.), further expanding the diversity of applications in which the serial network is employed. In this chapter, the past, present, and prospective future developments of CAN technology, with focused attention on applications in the agricultural and off-road sectors are broadly examined. CAN technology fundamentals, standards creation, modern day uses, and potential functionalities and challenges specific to CAN in the wake of precision agriculture and smart farming are discussed in detail.
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Ramasamy, Prema, Shri Tharanyaa Jothimani Palanivelu, and Abin Sathesan. "Certain Applications of LabVIEW in the Field of Electronics and Communication." In LabVIEW - A Flexible Environment for Modeling and Daily Laboratory Use. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.96301.
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The LabVIEW platform with graphical programming environment, will help to integrate the human machine interface controller with the software like MATLAB, Python etc. This platform plays the vital role in many pioneering areas like speech signal processing, bio medical signals like Electrocardiogram (ECG) and Electroencephalogram (EEG) processing, fault analysis in analog electronic circuits, Cognitive Radio(CR), Software Defined Radio (SDR), flexible and wearable electronics. Nowadays most engineering colleges redesign their laboratory curricula for the students to enhance the potential inclusion of remote based laboratory to facilitate and encourage the students to access the laboratory anywhere and anytime. This would help every young learner to bolster their innovation, if the laboratory environment is within the reach of their hand. LabVIEW is widely recognized for its flexibility and adaptability. Due to the versatile nature of LabVIEW in the Input- Output systems, it has find its broad applications in integrated systems. It can provide a smart assistance to deaf and dumb people for interpreting the sign language by gesture recognition using flex sensors, monitor the health condition of elderly people by predicting the abnormalities in the heart beat through remote access, and identify the stage of breast cancer from the Computed tomography (CT) and Magnetic resonance imaging (MRI) scans using image processing techniques. In this chapter, the previous work of authors who have extensively incorporated LabVIEW in the field of electronics and communication are discussed in detail.
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Afolabi Daniyan, Ilesanmi, Lanre Daniyan, Adefemi Adeodu, and Ikenna Uchegbu. "Levels of Automation." In Principles of Automation and Control. BENTHAM SCIENCE PUBLISHERS, 2023. http://dx.doi.org/10.2174/9789815080926123010009.
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This chapter discusses the levels of automation (LOA). The degree to which a system, process or task is automated is referred to as the level of automation. They are: manual, semi-automatic and fully automatic depending on the level of human involvement, the system or processes to be automated and the end users’ requirements. At the lowest level; the manual represents the human control level while the fully automatic level represents the computer controls level. At the semi-automatic level, the control activities involve both human and computer controls. The human control tasks include sensory processing for information acquisition, perception for information analysis, decision-making based on cognitive processing for action selection, and response selection for action implementation. Furthermore, this chapter also highlights the elements of system automation and classes of automated systems. The identification and specifications of the elements of the system’s automation based on the end-user requirements are a critical aspect of the control design phase. The major elements of the system’s automation include a sensor, a controller, an actuator, a power component, a motor and drives, a communication protocol, a human-machine interface, etc. Classes of automation systems could also be fixed, programmable, flexible, integrated, or cognitive automation depending on the need. The future of fully autonomous systems is exciting and promising although many industrial processes and systems are semi-autonomous thus relying on human factors such as physical, mental and technical capabilities such as intuition, perception, sensitivity, observation, experience, and judgment to arrive at effective decision making as it relates to system’s control.
Conference papers on the topic "Peripheral Interface Controller etc"
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Ali, Haider abdullah, Nicolae Goga, Constantin viorel Marian, and Liwa Abdullah ali. "AN INVESTIGATION OF MIND-CONTROLLED PROSTHETIC ARM INTELLIGENT SYSTEM." In eLSE 2020. University Publishing House, 2020. http://dx.doi.org/10.12753/2066-026x-20-088.
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Brain-Computer Interface (BCI) is a connection path that directly connects the system of central nervous and external devices without the reliance of peripheral nerves. The applications of brain-computer interface attain beyond medical applications where it used to improve the life of patients. Many achievements were established during the latest years in the prosthetics field particularly using the latest achievements of technology into these products. However, some problems have emerged in the prosthetics like being cost-expensive, difficult to install and maintain, or the need for surgical procedures. The medical issue here is the need to develop an affordable and functional prosthetic arm that has an intuitive and natural control that permits the patient to adapt effortlessly to his/her new limb. We intend to develop low-cost, accurate, easy to use and smart functional upper body prosthetic arm controlled by non-invasive BCI and made of lightweight materials aiming to give the patients comfortable and easiness to handle the artificial arm. The arm will be controlled through commands of the brain obtained by an electroencephalography (EEG) headset without any surgical invasion. The system will be used by the patients who will learn how to train and control the prosthetic using their brain commands. The prosthetic arm can be considered as an e-learning system for educational purposes for persons that are in touch with some medical fields such as medical students, medical engineering students, physicians, researchers, etc., who needs to study the technology of prosthetics in an easy approach and to set goals for such systems.
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Wang Yi, Qiu Yunfeng, and Yin Jie. "Application of automobile power window controller for peripheral interface controller." In Instruments (ICEMI). IEEE, 2011. http://dx.doi.org/10.1109/icemi.2011.6037836.
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Rokonuzzaman, Md, and Md Hossam-E-Haider. "Design of a peripheral interface controller based MPPT charge controller." In 2016 2nd International Conference on Electrical, Computer & Telecommunication Engineering (ICECTE). IEEE, 2016. http://dx.doi.org/10.1109/icecte.2016.7879638.
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Gaidhane, Awani N., and Manish Pankaj Khorgade. "FPGA Implementation of Serial Peripheral Interface of FlexRay Controller." In 2011 UkSim 13th International Conference on Computer Modelling and Simulation (UKSim). IEEE, 2011. http://dx.doi.org/10.1109/uksim.2011.33.
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Jamaludin, Izhar Izzudin bin, and Hasliza binti Hassan. "Design and Analysis of Serial Peripheral Interface for Automotive Controller." In 2020 IEEE Student Conference on Research and Development (SCOReD). IEEE, 2020. http://dx.doi.org/10.1109/scored50371.2020.9250981.
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Baharom, R., S. A. Ramli, and M. K. Hamzah. "Peripheral interface controller (PIC) based smart low power AC-DC converter." In 2010 IEEE Symposium on Industrial Electronics and Applications (ISIEA 2010). IEEE, 2010. http://dx.doi.org/10.1109/isiea.2010.5679491.
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Mohd Noor, NurQamarina binti, and Azilah Saparon. "FPGA implementation of high speed serial peripheral interface for motion controller." In 2012 IEEE Symposium on Industrial Electronics and Applications (ISIEA 2012). IEEE, 2012. http://dx.doi.org/10.1109/isiea.2012.6496676.
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Arifin, H., R. Baharom, M. K. Hamzah, and N. R. Hamzah. "Peripheral interface controller as signal generator in the single-phase matrix converter as AC-DC converter." In Applications (ISIEA 2009). IEEE, 2009. http://dx.doi.org/10.1109/isiea.2009.5356323.
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Singh, Bhagat. "Armed anti infiltration robot based on peripheral interface controller using infrared ranging technique with single disc system." In 2014 International Conference on Computing for Sustainable Global Development (INDIACom). IEEE, 2014. http://dx.doi.org/10.1109/indiacom.2014.6828027.
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Vaidya, Vishwas Manohar. "Innovative Architecture of a Smart Bidirectional Input /Output Interface Based upon Frugal Engineering Concepts." In WCX SAE World Congress Experience. SAE International, 2023. http://dx.doi.org/10.4271/2023-01-0588.
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<div class="section abstract"><div class="htmlview paragraph">Automotive megatrends such as connected, autonomous and electrified vehicles are driving penetration of automotive electronic technology in every vehicle subsystem. However, these electronic units need to be interfaced with input/output devices from outside world. The same need to be interfaced with a robust and reusable architecture conforming to automotive norms. When generic electronic control units (ECUs) need to be reused across diverse vehicle families and segments, it is desirable that every ECU pin interfaced with the outside world needs to be capable of performing multiple tasks. This is particularly true of digital outputs (such as solenoids, lamps, on/off motors etc.) and digital inputs (such as command switches, pushbuttons, pressure switches, thermal switches etc.) Current smart switch peripheral ICs can be used only as outputs and cannot be configured as inputs whenever demanded by application requirements. Also, these smart switch architectures provide conservatively generic solutions which prove to be “over engineered” for many digital output solutions such as simple LED or Solenoid controls. This paper proposes a novel smart switch cum input interface architecture which can be optimally tailored to a given set of output load requirements such as current profile, thermal requirements, protection on one hand and a simple digital on/off input interface on the other hand. The architecture design employs a system engineering technique which lists performance requirements and explores alternate architectures to meet the same. All the alternatives are rated on various performance metrics to arrive at the rightmost choice fitting a given application. The paper ends with a design example which covers both hardware philosophy and a state machine based low level command/diagnostic driver. Future directions and opportunities for this solution are discussed at the end.</div></div>