Relevant bibliographies by topics / ADXL335

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'ADXL335'

Author: Grafiati
Published: 30 May 2022
Last updated: 31 May 2022

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Journal articles on the topic "ADXL335"

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., Ashish B. "GESTURE CONTROLLED ROBOT USING ADXL335 ACCELEROMETER." International Journal of Research in Engineering and Technology 05, no. 10 (October 25, 2016): 176–80. http://dx.doi.org/10.15623/ijret.2016.0510028.

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Kalita, Sanjib, J. N. Borole, and Dr K. P. Rane. "Wireless Earthquake Alarm System using ATmega328p, ADXL335 and XBee S2." International Journal of Engineering Trends and Technology 12, no. 3 (June 25, 2014): 144–48. http://dx.doi.org/10.14445/22315381/ijett-v12p227.

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Yang, Xia, Kai Yin, Hai Ying Liu, and Hong Da Li. "An Information Acquisition Device for Driver Training Operation with MEMS Transduce." Applied Mechanics and Materials 198-199 (September 2012): 1250–55. http://dx.doi.org/10.4028/www.scientific.net/amm.198-199.1250.

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In this paper, based on characteristic analysis of driver training operation, a new approach of information acquisition for driver training is found, which is through extracting acceleration information. The information acquisition device which is under MEMS three-axis acceleration transducer, based on ADXL335 and MCU, can achieve real-time and accurate measurement of vehicles’ three-dimensional acceleration. By comparing the change curve of measured acceleration with the related data of good driver, the existing problems will be found out. In this way, the driver training operation can be assessed in a timely way.
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Ravali, K., Dr ASR.Murty, V. Pavani, and B. Prathyusha. "Measuring and maintaining acceleration records obtained from 3D MEMS." International Journal of Engineering & Technology 7, no. 4.5 (September 22, 2018): 530. http://dx.doi.org/10.14419/ijet.v7i4.5.21150.

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Tracing or tracking of an object or a link is needed in many engineering applications. Achieving it in real time applications using MEMS or the traditional accelerometers is also a well-known method. Measuring acceleration in [3] directions is needed in handling equipment, material transfer and in manufacturing industry.In this work, Calibration of accelerometer sensor ADXL335 is carried out first to show the accurate values of „g‟. Then, the measurement of acceleration is carried out as per the code written in Arduino IDE. ADXL335 is interfaced with NODE MCU. NODE MCU uses HTTP protocol to send the measured acceleration values to cloud platform. ThingSpeak is the cloud platform chosen for this purpose. ThingSpeak requires selection of a number of fields. Here we have three values to be taken to cloud (X, Y and Z directions).For display purposes a mobile is used in conjunction with MIT App Inventor. Acceleration record files can be obtained that may be processed further. The application contains three buttons forward, side and vertical which displays the acceleration values across X, Y and Z directions respectively. The acceleration values are further integrated to obtain velocity and displacement .It can be done through 2 ways like ana- log integration and digital integration. But the analog integration is reliable only to measure the sinusoidal steady state values. So the digital integration is much better for obtaining a displacement signal from acceleration. It is possible to use these components for further processing and applications like ultrasonic applications, military devices namely mixers, elevators, mechanically handling equipment‟s and information handling devices like iPad, phones etc.
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Mohd Ismail, Mohd Ismifaizul, Rudzidatul Akmam Dziyauddin, Noor Azurati Mohd Salleh, Robiah Ahmad, Marwan Hadri Azmi, and Hazilah Mad Kaidi. "Analysis and Procedures for Water Pipeline Leakage Using Three-Axis Accelerometer Sensors: ADXL335 and MMA7361." IEEE Access 6 (2018): 71249–61. http://dx.doi.org/10.1109/access.2018.2878862.

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Acharya, Jonathan. "Design and development of a method for detecting sleep roll-over counts using accelerometer ADXL335." International Journal of Electrical and Computer Engineering (IJECE) 10, no. 1 (February 1, 2020): 477. http://dx.doi.org/10.11591/ijece.v10i1.pp477-485.

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<p>Sleep plays an important role as it helps human body to rejuvenate, boosts mental function and manage stress. Sleep is restorative function which enhances muscle growth, repairs tissues, maintains health and make physical appearance look or feel better. The lack of sleep in human body can increase the risk of diseases which are asthma, diabetes, depression. For healthy physiological function, sleep is essential and has strong relation to mental condition. Easy way of sleep management is considered for maintaining good mental health. Numerous scientists, doctors and researchers have proposed various ways to monitor sleep, some of those best tests are polysomnography test and actigraphy test. However, taking sleep test covering the whole body with wires and electrodes which is polysomnography test is uncomfortable for patients, and sensors used for different approaches like this are costly and often require overnight treatment and expert monitoring in clinics. Therefore, easy way of detecting roll-over movements which is convenient for patients to wear is proposed. Accelerometer ADXL335 sensor is taped on socks during sleep which is comfortable for patients to wear and do not cause any inconvenience during sleep. Algorithm is proposed to read the dataset and count the roll-over during the sleep based on threshold. Resulting the number of roll-over detected during a sleep period.</p>
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Bahri, Saeful, and Putra Septia Yuza. "Analisa Kerusakan (Deformasi) Engine Mounting Kendaraan Toyota Agya Berdasarkan Tingkat Vibrasi Berbasis Mem Accelerometer." RESISTOR (elektRonika kEndali telekomunikaSI tenaga liSTrik kOmputeR) 2, no. 2 (November 3, 2019): 131. http://dx.doi.org/10.24853/resistor.2.2.131-136.

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Dalam mendeteksi kerusakan pada engine mounting cara konvensional sering di lakukan, yaitu secara visual dan feeling. Dengan cara itu timbul suatu permasalahan yaitu kesalahan diagnose kerusakan engine mounting, di karenakan visual dan feeling masing-masing individu berbeda-beda. Pada penelitian kali ini digunakan teknologi MEM Accelerometer untuk membaca tingkat vibrasi dari engine mounting. Sensor accelerometer yang di gunakan adalah ADXL335 dengan output analog berupa tegangan. Untuk memudahkan dalam membaca hasil akibat vibrasi tersebut, digunakan aplikasi data akuisisi yaitu LabView. Pada tampilan labview dapat di lihat grafik vibrasi, nilai besarnya vibrasi dan indicator warna untuk memberi tanda layak atau tidaknya vibrasi yang di hasilkan, jika indicator berwarna hijau engine mounting masih layak digunakan dan jika indicator berwarna merah dilakukan penggantian engine mounting. Nilai range vibrasi di dapat dengan melakukan sampling data engine mounting normal dan abnormal serta vibrasi pada kendaraan yang masih beroprasi. Dengan adanya perangkat tersebut maka teknisi dapat dengan mudah mengetahui apakah engine mounting tersebut masih dalam kondisi layak pakai atau sudah harus di ganti.
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Shaji, Ashwin K., and Rinku Dhiman. "Gesture Controlled Robotic Hand Using RF Unit and Accelerometer." International Journal of Research in Engineering, Science and Management 3, no. 11 (November 30, 2020): 125–27. http://dx.doi.org/10.47607/ijresm.2020.387.

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In the race of man v/s machine, automation comes as a companion of man and machine. Taking the technology to the next level from the mobile driven world to an automation driven world, will increase manufacturers their production rates, productivity and efficiency with materials, product quality, and worker safety. From ancient times the ingenuity and the brain power human beings have astonished researchers with engineering and mechanical marvels like the wheel, bow and arrow, cross bows, etc. What started from the wheel did not end there but evolved into the complex mechatronics systems that we see around us today. The robotics is one such human marvel that will be one-day equal human beings themselves. The robots thus have far more use in the daily life than any other systems. The robotics and automation is a rising piece of technology which could lessen the loads of work and solve the problems exponentially. As robotics is finding its place on every sector in this globe, the aim this project is to introduce robotics in the field of industry. The title of the system is ‘Gesture controlled robotic arm’. The aim of the system is to provide safety and to increase productivity in our industries. The research project should be designed in such a way that it should occupy minimum space, should possess high maneuverability and high agility. The project in discussion is types of robots which needs minimum space and are proved to be highly maneuverable and highly agile. The robot contains two main units, one is the robotic arm and second is the data glove with accelerometer using a RF controller. The robotic arm unit is responsible for the hand functions of the whole structure of the robot. The data glove is responsible for the input feedback to the robotic arm. The robotic unit will be controlled by an Arduino platform to improve its stability. The angle tilt will be measured using ADXL335 sensor. The ADXL335 uses angle, tilt and yaw values with Arduino for data transfer. Through advanced primary and secondary research techniques, system implementation hurdles and potential risks involved in developing such a system are identified. The project is fully planned using advanced project management techniques like PERT chart and Gantt chart in order to identify the critical activities and the timeline related with it.
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Mustar, Muhamad Yusvin, and Yudhi Ardiyanto. "PERANCANGAN KENDALI NAVIGASI ROBOT TANK SECARA NIRKABEL BERBASIS SENSOR ACCELEROMETER BERDASARKAN GERAKAN TANGAN." Simetris: Jurnal Teknik Mesin, Elektro dan Ilmu Komputer 9, no. 1 (April 1, 2018): 87–98. http://dx.doi.org/10.24176/simet.v9i1.1866.

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Sebuah sistem kendali berbeda pada navigasi robot tank diperkenalkan pada penelitian ini. Umumnya sistem kendali navigasi robot tank dikendalikan meggunakan remot kontrol atau joystick dan beberapa perangkat pengontrolan robot lainya. Pengontrolan navigasi robot tank bertujuan untuk dapat mengendalikan pergerakan robot agar dapat berjalan maju, mundur, berbelok ke kiri dan ke kanan. Pada penelitian ini, pengontrolan navigasi robot dilakukan berdasarkan gerakan tangan manusia. Sebuah sarung tangan yang dilengkapi sensor accelerometer ADXL335 didesain untuk dapat mendeteksi setiap bentuk gerakan tangan. Pendeteksian gerakan tangan didasarkan pada pembacaan orientasi axis X dan Y acceleometer. Gerakan tangan ini kemudian diinput pada mikrokontroler Arduino Nano dan ditransmisikan melalui nRF24L01 2.4GHz. Hasil pendeteksian gerak kemudian diterima dan diolah pada mikrokontroler Arduino Mega yang terdapat pada robot tank. Selanjutnya, hasil pendeteksian gerakan tangan ini dipetakan dalam beberapa bagian pengontrolan, agar sesuai dengan pola pengontrolan navigasi robot tank. Hasil penelitian ini menunjukan bahwa sebuah sistem pengontrolan navigasi robot tank berdasarkan gerakan tangan dapat diimplementasikan dan diaplikasikan secara riil, sehingga dapat memberikan pengalaman baru dalam berinteraksi dengan robot.
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Shankar, N. V. S., A. Gopi Chand, K. Hanumantha Rao, and K. Prem Sai. "Low Cost Vibration Measurement and Optimization during Turning Process." Advanced Materials Research 1148 (June 2018): 103–8. http://dx.doi.org/10.4028/www.scientific.net/amr.1148.103.

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During machining any material, vibrations play a major role in deciding the life of the cutting tool as well as machine tool. The magnitude acceleration of vibrations is directly proportional to the cutting forces. In other words, if we are able to measure the acceleration experienced by the tool during machining, we can get a sense of force. There are many commercially available, pre-calibrated accelerometer sensors available off the shelf. In the current work, an attempt has been made to measure vibrations using ADXL335 accelerometer. This accelerometer is interfaced to computer using Arduino. The measured values are then used to optimize the machining process. Experiments are performed on Brass. During machining, it is better to have lower acceleration values. Thus, the first objective of the work is to minimize the vibrations. Surface roughness is another major factor which criterion “lower is the better” applies. In order to optimize the values, a series of experiments are conducted with three factors, namely, tool type (2 levels), Depth of cut (3 levels) and Feed are considered (3 levels). Mixed level optimization is performed using Taguchi analysis with L18 orthogonal array. Detailed discussion of the parameters shall be given in the article.
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Dissertations / Theses on the topic "ADXL335"

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Шуляк, Максим Валерійович. "Методичне забезпечення до дисципліни "Мікроелектромеханічні прилади та системи"." Bachelor's thesis, КПІ ім. Ігоря Сікорського, 2019. https://ela.kpi.ua/handle/123456789/29588.

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Дипломний проект присвячений розробці методичних вказівок до виконання лабораторних робіт з дисципліни «Мікроелектромеханічні прилади та системи». Методичні вказівки розроблені для восьми лабораторних робіт. Передбачається використання сучасних інерціальних МЕМС датчиків та проведення імітаційного моделювання. Лабораторні роботи передбачають ознайомлення з принципами роботи МЕМС акселерометра та гіроскопа, їх підключення до ПК та отримання вихідних сигналів у середовищах Arduino IDE і Matlab. Створено необхідне програмне забезпечення для проведення циклу лабораторних робіт.
The diploma project is devoted to the development of guidelines for the implementation of laboratory works on the discipline "Microelectromechanical devices and systems". Methodical instructions are developed for eight laboratory works. It is planned to use modern inertial MEMS sensors and simulation. Laboratory work includes familiarization with the principles of MEMS accelerometer and gyroscope operation, their connection to the PC and reception of output signals in Arduino IDE and Matlab environments. The necessary software for the cycle of laboratory work is created.
Дипломный проект посвящен разработке методических указаний к выполнению лабораторных работ по дисциплине «Микроэлектромеханические приборы и системы». Методические указания разработаны для восьми лабораторных работ. Предполагается использование современных инерциальных МЭМС датчиков и проведения имитационного моделирования. Лабораторные работы предусматривают ознакомление с принципами работы МЭМС акселерометра и гироскопа, их подключение к ПК и получения выходных сигналов в средах Arduino IDE и Matlab. Создано необходимое программное обеспечение для проведения цикла лабораторных работ.
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Månsson, Max, and Erik Lidbeck. "Implementation of Sensor and Communication Technology for PAL Products." Thesis, Högskolan i Halmstad, Akademin för informationsteknologi, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-43003.

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DD Company AB wanted to improve their existing products the football training rebounding board PAL and their PAL Cones. Their suggested solution was to create an application which communicates with PAL and PAL Cones via Bluetooth. The goal was to have an app which can record how many times PAL has been hit during a set time span and control PAL Cones to indicate to the player to step on a specific cone. PAL's problem was solved by on it place a base unit made of an accelerometer to sense impacts, a BLE112 Bluetooth module to communicate over Bluetooth and an Arduino UNO for reading the accelerometer and signal the Bluetooth module which transmits a hit counter over Bluetooth to the mobile application. The PAL Cone uses only the BLE112, a LED, a button and a button cell battery to keep the size to a minimum. The base unit is able to filter the initial impact from the residual vibrations and sends a updating hit counter over a Bluetooth connection to the mobile application. The mobile application can control the counter by sending commands to the base unit. After a hit the mobile application can activate a cone to light up and receives feedback when a player steps on the specified cone.
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Hammarstedt, Ola. "Fall detection bracelet with an accelerometer and cellular connectivity." Thesis, Uppsala universitet, Signaler och System, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-388502.

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This thesis aims at developing a prototype for a fall detection bracelet that can connect to the cellular network. The bracelet consists of a processing unit, three sensors, a LTE USB modem and a powerbank. The prototype is aimed at elderly people since up to one out of three over the age of 65-years-old fall each year. Besides elderly people this system can be used in activities which involves substantial height, e.g. climbing and roofing. Statistics has shown that most serious consequences are not a direct result of falling, but from the lack of fast assistance and treatment. If a fall is detected a distress signal, in the form of an SMS message, is sent to a predefined emergency contact. The contents of the SMS messages includes time and date of fall, ambient temperature, fall location coordinates as well as an URL that redirects to the location as seen in Google Maps. The fall detection algorithm is threshold based and was created by first analyzing falls in different direction. It can successfully identify 74,4% of all falls, but as good as up to 91% of falls that are either backwards, forwards or to the left given that the bracelet is attached to the left wrist. The algorithm can further filter out 100% of studied activities that are not falls. Such activities include walking, running and sitting down. This gives an overall Accuracy of 93% for the system. The Accuracy takes into account how well a fall is detected and how well other activities are filtered out. Furthermore, the bracelet was worn for 40 hours, spread out over 11 days, in order to capture data during this persons every day life. During this time no false distress signal was sent to the emergency contact. Limitations of the system has been found to be the GPS module and the fact that the algorithm is threshold based. The location tracking can be improved by utilizing AGPS, which is the same technique that cellphones use. The threshold based system can't be circumvent in a wearable device solution. From this thesis it is indicated that a wearable bracelet can be a reliable fall detection unit. With more extensive falls and field testing even better results can be achieved and it can eventually be pushed as a real product.
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Lysoň, Jakub. "Bezdrátový modul akcelerometru." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2014. http://www.nusl.cz/ntk/nusl-220876.

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This master’s thesis describes a wireless accelerometer module. The aim of this work was to study the properties and involvement of the accelerometer, wireless module design for data transfering from the accelerometer to the PC and the module implementation. As a wireless device is used bluetooth module that enables communication between the product and the computer. The wireless module used rechargable lithium ion battery that helps keep module alive without adapter or net cable.
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Ferreira, José Pedro de Almeida. "Deteção de colisões em rails de estradas." Master's thesis, 2020. http://hdl.handle.net/10773/29589.

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Os dispositivos de retenção (rails) são estruturas básicas de segurança rodoviária, sendo importante manter a sua integridade através de uma manutenção adequada. A verificação destas estruturas, por parte das empresas de manutenção, é efetuada manualmente. A monotorização remota destes dispositivos permite uma melhor deteção de qualquer impacto, de modo a realizar uma reparação/substituição mais eficaz. Uma rede de sensores sem fios, de baixa potência e de baixo custo, pode ser implementada para a deteção remota de qualquer colisão. Nesta dissertação, está presente o desenvolvimento de uma ligação ponto-a-ponto desta rede e a sua possível implementação global. Esta ligação possui uma comunicação baseada em LoRa e uma deteção de impacto através de um acelerómetro MEMS.
The guardrails are basic road safety structures and it’s important to maintain their integrity through proper maintenance. The verification of these structures is carried out manually, by the maintenance companies. A remote monitorization of these devices allows for a better detection, of any impact, and a more effective repair/replacement. A low-cost, low-power wireless sensor network can be implemented for remote collision detection. This dissertation presents the development of a point-to-point connection of this network and its possible global implementation. This connection features LoRa communication and impact detection via a MEMS accelerometer.
Mestrado em Engenharia Eletrónica e Telecomunicações
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Book chapters on the topic "ADXL335"

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Sinha, Paritosh Kumar, Satyam Saraiyan, Momojit Ghosh, and Vijay Nath. "Design of Earthquake Indicator System Using ATmega328p and ADXL335 for Disaster Management." In Nanoelectronics, Circuits and Communication Systems, 565–72. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0776-8_53.

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Conference papers on the topic "ADXL335"

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Zhao Ling, Jia Ju-min, Li Chang-an, and Chen Ying. "The detection system of vehicle driving simulator attitude based on ADXL335." In 2011 Second International Conference on Mechanic Automation and Control Engineering (MACE). IEEE, 2011. http://dx.doi.org/10.1109/mace.2011.5988017.

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Husni, Emir, and Folkes Laumal. "The Development of an Earthquake Early Warning System Using an ADXL335 Accelerometer." In 2018 21st Saudi Computer Society National Computer Conference (NCC). IEEE, 2018. http://dx.doi.org/10.1109/ncg.2018.8593038.

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Datsyuk, Yuri, and Bohdan Kuplovskyi. "Use of MEMS Accelerometer ADXL355 in Microtremor Surveys." In 2021 IEEE 12th International Conference on Electronics and Information Technologies (ELIT). IEEE, 2021. http://dx.doi.org/10.1109/elit53502.2021.9501105.

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Xiuping, Yuan, Li Jia-Nan, and Fang Zuhua. "Hardware Design of Fall Detection System Based on ADXL345 Sensor." In 2015 8th International Conference on Intelligent Computation Technology and Automation (ICICTA). IEEE, 2015. http://dx.doi.org/10.1109/icicta.2015.117.

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Pramudya, Yudhiakto, and Muarif Islamiah. "Vibration characteristics study on observatory using accelerometer ADXL345 sensor and Arduino." In THE 8TH NATIONAL PHYSICS SEMINAR 2019. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5132658.

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Maiti, Madhumanti, Tanaya Banerjee, and Kalyan Chatterjee. "An innovative prototype to prevent accidents using eye blink sensors and accelerometer ADXL330." In 2015 International Conference and Workshop on Computing and Communication (IEMCON). IEEE, 2015. http://dx.doi.org/10.1109/iemcon.2015.7344457.

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De La Torre, Rolando Dll, Garnet Amor E. Pasobillo, Maricris F. Rebueno, Donnabel P. Sunga, Bennyvic Joyce J. Esguerra, and Ronnie Concepcion. "Vibration-based Structural Health Monitoring System for Bridges using ADXL345 Accelerometer with MATLAB Standalone Application." In 2020 IEEE 12th International Conference on Humanoid, Nanotechnology, Information Technology, Communication and Control, Environment, and Management (HNICEM). IEEE, 2020. http://dx.doi.org/10.1109/hnicem51456.2020.9400068.

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Martins Fernandes, Brenda, Glauber Zerbini Costal, and Guilherme Silva Pontello. "ANÁLISE E VALIDAÇÃO DAS FREQUÊNCIAS NATURAIS DE UM VEÍCULO BAJA POR MEIO DO SENSOR ACELERÔMETRO ADXL345." In 20XX CONEMI. ,: Even3, 2021. http://dx.doi.org/10.29327/conemi.286746.

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Chen, Haiqi, and Peng Li. "Intelligent Positioning Boots for Miners' Fall Monitoring Based on ZigBee Communication Protocol and ADXL345 Acceleration Sensor." In 2022 IEEE Asia-Pacific Conference on Image Processing, Electronics and Computers (IPEC). IEEE, 2022. http://dx.doi.org/10.1109/ipec54454.2022.9777577.

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Alvarez, M., J. J. Jimenez, D. Escribano, P. Manzano, I. Arruego, V. Apestigue, M. Gonzalez-Guerrero, I. Martin, and D. M. Gonzalez-Castano. "Low Dose Rate testing of ADXL327 Accelerometer for a Mars Mission." In 2015 IEEE Radiation Effects Data Workshop (REDW). IEEE, 2015. http://dx.doi.org/10.1109/redw.2015.7336721.

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