The document discusses SensorTile.box, a development platform from STMicroelectronics for exploring sensor applications. It provides an overview of SensorTile.box and its sensors, as well as use cases and the development ecosystem. The platform allows progression from entry-level use to expert and professional modes with more customization options. Vibration monitoring is presented as an example application, showing how it can be implemented and optimized at different levels.
LPC2138 Based Temperature Compensated Ultrasonic Ranging For Blind Personpaperpublications3
Abstract: This paper is intended to provide a theoretical model of object detection and real time assistance via Global Positioning System (GPS).This paper aims at the development of an Electronic Travelling Aid (ETA) kit to help the blind people to find obstacle free path. This ETA is fixed to the stick of the blind people. When the object is detected near to the blinds’ stick it alerts them with the help of vibratory circuit. Ultrasonic sensors are used to evaluate distance of the objects around the blind person to guide the user towards the secure and available path. Output is in the form of vibrations which the blind person can easily recognize. The hardware of entire system contains ARM7 (LPC2138), temperature sensor, ultrasonic sensors and mobile vibrator, Global positioning system (GPS) module and Global System for Mobile (GSM) module. It contains temperature compensation method to reduce the error in measurement of distance using ultrasonic sensors.
STONE Tech is a manufacturer of HMI display modules (Intelligent TFT LCD). We provide LCD modules/LCD Displays, Graphic LCM, smart Display LCD, TFT LCM, Custom LCD Module Display, and LCD panels. china LCD Manufacturers.
STONE Tech is a manufacturer of HMI display module(Intelligent TFT LCD). We provide LCD modules/LCD Displays, Graphic LCM, smart Display LCD, TFT LCM, Custom LCD Module Display, and LCD panels. china LCD Manufacturers.
Wireless humidity and temperature monitoring systemSagar Srivastav
Source - http://www.engineersgarage.com
Humidity and temperature monitoring systems are quite common in industries. These environment factors need constant supervision to maintain reliability and efficiency of the industrial devices. The monitoring systems used in industries are generally wired where sensor unit and the sensor monitoring system connects through a cable wire. The humidity and temperature monitoring systems can be made wireless using the 434 RF modules. With wireless connectivity, the sensor and the monitoring systems can be installed separately and industrial equipment can be remotely supervised. Plus, the cost for extensive cable installation is also saved.
LPC2138 Based Temperature Compensated Ultrasonic Ranging For Blind Personpaperpublications3
Abstract: This paper is intended to provide a theoretical model of object detection and real time assistance via Global Positioning System (GPS).This paper aims at the development of an Electronic Travelling Aid (ETA) kit to help the blind people to find obstacle free path. This ETA is fixed to the stick of the blind people. When the object is detected near to the blinds’ stick it alerts them with the help of vibratory circuit. Ultrasonic sensors are used to evaluate distance of the objects around the blind person to guide the user towards the secure and available path. Output is in the form of vibrations which the blind person can easily recognize. The hardware of entire system contains ARM7 (LPC2138), temperature sensor, ultrasonic sensors and mobile vibrator, Global positioning system (GPS) module and Global System for Mobile (GSM) module. It contains temperature compensation method to reduce the error in measurement of distance using ultrasonic sensors.
STONE Tech is a manufacturer of HMI display modules (Intelligent TFT LCD). We provide LCD modules/LCD Displays, Graphic LCM, smart Display LCD, TFT LCM, Custom LCD Module Display, and LCD panels. china LCD Manufacturers.
STONE Tech is a manufacturer of HMI display module(Intelligent TFT LCD). We provide LCD modules/LCD Displays, Graphic LCM, smart Display LCD, TFT LCM, Custom LCD Module Display, and LCD panels. china LCD Manufacturers.
Wireless humidity and temperature monitoring systemSagar Srivastav
Source - http://www.engineersgarage.com
Humidity and temperature monitoring systems are quite common in industries. These environment factors need constant supervision to maintain reliability and efficiency of the industrial devices. The monitoring systems used in industries are generally wired where sensor unit and the sensor monitoring system connects through a cable wire. The humidity and temperature monitoring systems can be made wireless using the 434 RF modules. With wireless connectivity, the sensor and the monitoring systems can be installed separately and industrial equipment can be remotely supervised. Plus, the cost for extensive cable installation is also saved.
LinnStrument is an expressive electronic musical instrument with five dimensions of touch sensing. It is built with open-source hardware, the Arduino Due and runs open-source firmware. There are hundreds of playing cells and multi-color LEDs, making it ideal to discover embedded Arduino development with concrete musical and visual results.
This session will introduce the Arduino development concepts, tie them back to the actual hardware, provide an overview of the main algorithms in the LinnStrument firmware that are responsible for the musical feel and explain valuable lessons that were learned during the development of the firmware.
LinnStrument : the ultimate open-source hacker instrumentGeert Bevin
The video recording of this presentation is available on YouTube: https://www.youtube.com/watch?v=iENVztlxWuk
LinnStrument is a new expressive electronic instrument that was invented by Grammy award winner, Roger Linn, creator of the MPC and the LinnDrum. It is built with open-source hardware, the Arduino Due and runs with firmware that is completely open-source as well. With its 3 dimensional touch sensor, 200 cells and multi-color LEDs, LinnStrument presents itself as an amazing playground to discover embedded Arduino development with concrete musical and visual results. This session will introduce the Arduino development concepts, tie them back to the actual hardware concerns, provide an overview of the main algorithms in the LinnStrument firmware and explain valuable lessons that were learned during the development.
Low Cost Temperature and Humidity Estimator with Atmega8 MicrocontrollerYogeshIJTSRD
This paper presents a efficient but also cost effective system to determine two parameters of the atmosphere, which are the temperature and humidity. The Digital Temperature and Humidity Sensor 22 DHT 22 is used to measure the temperature and humidity. The temperature measured is the ambient temperature of the atmosphere and humidity is the relative humidity of the atmosphere. The system is constructed with AVR atmega8 as a controller and a LCD liquid crystal display 16x2 display as a means to display the temperature and humidity. Through the Arduino IDE Integrated Development Environment code Is uploaded to the ATmega8. Also as the display is operated in 4 bit mode thus there are many pins of the ATmega8 which are available for other purposes and the system becomes compact. Thus the small device can be adjusted in different places for use. As it is using a ATmega8 it can be used to command various devices as temperature and humidity varies. M. Matsive Ali | MD. Rhineul Islam | Ashikur Rahman "Low Cost Temperature and Humidity Estimator with Atmega8 Microcontroller" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, URL: https://www.ijtsrd.compapers/ijtsrd41155.pdf Paper URL: https://www.ijtsrd.comengineering/electrical-engineering/41155/low-cost-temperature-and-humidity-estimator-with-atmega8-microcontroller/m-matsive-ali
Advanced view of atmega microcontroller 1673 projects list nov 2019 at mega...WiseNaeem
Most of the electronics geeks are asking the whole list of Atmega AVR projects PDF here we will share lists every month as our projects are being updated on a daily basis. PDF is a good source to work offline. We will offer a direct PDF file download link with info of its release date, number of projects.
Minor Project Report: Automatic Door Control SystemSaban Kumar K.C.
This minor project is based on the automatic door control system used in a room or hall based on IR sensor. This project is applicable at such places where the people are busy and people are in large number.
Lecture handout given by Mohd. Ayub Khan in National Workshop on LabVIEW and its Applications.Organized at Dayalbagh Educational Institute,Dayalbagh,AGRA from 28-29 August 2015.
Embedded System, EMBEDDED SYSTEM: AN INTRODUCTION, ELEMENTS OF EMBEDDED SYSTEMS, CORE THE OF EMBEDDED SYSTEM, CHARACTERISTICS & QUALITY ATTRIBUTES OF EMBEDDED SYSTEMS, EMBEDDED HARDWARE FROM SOFTWARE PROGRAMMERS PERSPECTIVE,
시크 SICK Lector63x 2D DPM스캐너 고정식바코드스캐너 산업용바코드리더 이미지스캐너 매뉴얼HION IT
Lector63x 시리즈 제품군
Lector631
Lector632
2메가픽셀 센서 장착 코드 리더
렌즈 및 필터 디자인의 유연성
교체 가능한 내장형 High-Power 조명
기능 버튼, 레이저 조준 보조장치, 음향 피드백 신호 및 피드백 LED
고분해능 센서와 지능적 처리로 어려운 판독 조건에서도 최고의 판독 성능을 보장합니다.
구성이 유연한 광학 디자인과 고성능 조명으로 고속에서나 판독 거리가 먼 애플리케이션에서도 작은 코드를 판독할 수 있습니다.
직관적 인터페이스, 장치 장착을 신속하게 해주는 기능 버튼, 내장된 조명과 조준 레이저 덕분에 신속하고 용이한 커미셔닝
음향 신호와 물체 위 컬러 피드백 스폿으로 즉각적 결과 점검 가능
microSD 메모리 카드로 간단하게 복제 기능을 활용할 수 있어 생산 라인 장애 시 기계 작동 정지 시간이 감소됨
FEATURES
Focus : Adjustable focus (manually)
Sensor : CMO S matrix sensor, gray scale values
Light source ;
To be ordered separately as accessory
Aiming laser: visible red light (λ = 630 nm ... 680 nm)
Laser class : 1, complies with 21 CFR 1040.10 except for the tolerance according to “Laser Notice No. 50”from June 24, 2007 (IEC 60825-1 (2007-3))
Scanning frequency : ≤ 50 Hz, at 1.9 megapixels resolution
Code resolution : ≥ 0.1 mm 1)
Reading distance : 50 mm ... 2,200 mm
PERFORMANCE
Bar code types : GS1-128 / EAN 128, UPC / GTIN / EAN, Interleaved 2 of 5, Pharmacode, GS1 DataBar, Code 39, Code 128, Codabar, Code 32, Code 93, USPS (Postnet, Planet, USPS4SCB), Australian Post, Dutch KIX Post, Royal Mail, Swedish Post
2D code types : Data Matrix ECC 200, GS1 Data-Matrix, MaxiCode, QR code
Stacked code types : PDF 417
Code qualification : On the basis of ISO/IEC 16022, ISO/IEC 15415, ISO/IEC 18004
INTERFACES
Serial (RS-232, RS-422) ;
Function : Host, AUX
Data transmission rate : 300 Baud ... 115.2 k Baud, AUX: 57.6 kBaud (RS-232)
USB : USB 2.0
Ethernet ;
Function : Host, AUX, image transmission
Data transmission rate : 10/100/1,000 Mbit/s
Protocol : TCP/IP, FTP (image transmission), EtherNet/IP, PROFINET (optional over external fieldbus module CDF 600-2)
CAN bus ;
Function : SICK CAN sensor network (Master/Slave, Multiplexer/Server)
Data transmission rate : 250 kbit/s ... 500 kbit/s
Protocol : CSN (SICK CAN Sensor Network)
PROFIBUS DP : Optional over external fieldbus module (CDF600-2)
Switching inputs : 4 (“Sensor 1”, “Sensor 2”, 2 inputs via optional CMC600 parameter memory in CDB650/CDM 420)
Configurable inputs : Encoder input, external trigger
Switching outputs : 6 (CDB650: “Result 1”, “Result 2”, “Result 3”, “Result 4”, 2 external outputs via CMC600 or CDM420: “Result 1”, “Result 2”, 2 external outputs via CMC600 or cable with open end:“Result 1”, “Result 2”, “Result 3”, “Result 4”)
“device ready”
Reading pulse : Switching inputs, non-powered, serial interface, Ethernet, CAN , auto pulse, presentation mode
Optical indicators : 11 LEDs (5 x status display, 5 x LED bar graph, 1 green/red feedback spot)
Acoustic indicators : Beeper (configurable)
Control elements : 2 buttons
Configuration software : SOPAS ET
Memory card : Micro SD memory card (flash card) max. 32 GB , optional
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
This is a 16-slides presentation developed for didactic purposes: take over the design, development and evaluation of a pervasive system, whose goal is to address a real-world problem through an end-user driven design.
It's an assignment of "Pervasive System" course at "Sapienza, University of Rome", master degree in "Computer Science", faculty of "Information Enegineering, Informatics and Statistics", A.Y. 2017-2018.
This is the final presentation of the above-mentioned group project: a smart stopwatch for recording athletic training. It's composed by three sections:
- Brief system's introduction and overview.
- Description of systems's components: hardware and software architecture.
- Description of prototype's evolution on the basis of user evaluation.
- Demo of the system.
If you are interested in retracing the entire development process of the project, you can consult all the presentations with this topic:
1. https://www.slideshare.net/AntonioIonta/my-fitness-system-initial-ideas
2. https://www.slideshare.net/AntonioIonta/chronosmart-overview-user-evaluation
3. https://www.slideshare.net/AntonioIonta/chronosmart-mvp
4. https://www.slideshare.net/AntonioIonta/chronosmart-final-presentation-101093689
Team members for group project:
- Ionta Antonio (https://www.linkedin.com/in/antonio-ionta-a349b515a/ , https://github.com/A-I-18/)
- Luciano Antonio (https://www.linkedin.com/in/antonio-luciano-b04bb915a/ , https://github.com/theanto)
- Zollo Luigi (https://www.linkedin.com/in/luigi-zollo-85056915a/ , https://github.com/LuigiZ91)
Share ideas and get involved! Visit the GitHub page of the project: https://github.com/theanto/ChronoSMART
LinnStrument is an expressive electronic musical instrument with five dimensions of touch sensing. It is built with open-source hardware, the Arduino Due and runs open-source firmware. There are hundreds of playing cells and multi-color LEDs, making it ideal to discover embedded Arduino development with concrete musical and visual results.
This session will introduce the Arduino development concepts, tie them back to the actual hardware, provide an overview of the main algorithms in the LinnStrument firmware that are responsible for the musical feel and explain valuable lessons that were learned during the development of the firmware.
LinnStrument : the ultimate open-source hacker instrumentGeert Bevin
The video recording of this presentation is available on YouTube: https://www.youtube.com/watch?v=iENVztlxWuk
LinnStrument is a new expressive electronic instrument that was invented by Grammy award winner, Roger Linn, creator of the MPC and the LinnDrum. It is built with open-source hardware, the Arduino Due and runs with firmware that is completely open-source as well. With its 3 dimensional touch sensor, 200 cells and multi-color LEDs, LinnStrument presents itself as an amazing playground to discover embedded Arduino development with concrete musical and visual results. This session will introduce the Arduino development concepts, tie them back to the actual hardware concerns, provide an overview of the main algorithms in the LinnStrument firmware and explain valuable lessons that were learned during the development.
Low Cost Temperature and Humidity Estimator with Atmega8 MicrocontrollerYogeshIJTSRD
This paper presents a efficient but also cost effective system to determine two parameters of the atmosphere, which are the temperature and humidity. The Digital Temperature and Humidity Sensor 22 DHT 22 is used to measure the temperature and humidity. The temperature measured is the ambient temperature of the atmosphere and humidity is the relative humidity of the atmosphere. The system is constructed with AVR atmega8 as a controller and a LCD liquid crystal display 16x2 display as a means to display the temperature and humidity. Through the Arduino IDE Integrated Development Environment code Is uploaded to the ATmega8. Also as the display is operated in 4 bit mode thus there are many pins of the ATmega8 which are available for other purposes and the system becomes compact. Thus the small device can be adjusted in different places for use. As it is using a ATmega8 it can be used to command various devices as temperature and humidity varies. M. Matsive Ali | MD. Rhineul Islam | Ashikur Rahman "Low Cost Temperature and Humidity Estimator with Atmega8 Microcontroller" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-4 , June 2021, URL: https://www.ijtsrd.compapers/ijtsrd41155.pdf Paper URL: https://www.ijtsrd.comengineering/electrical-engineering/41155/low-cost-temperature-and-humidity-estimator-with-atmega8-microcontroller/m-matsive-ali
Advanced view of atmega microcontroller 1673 projects list nov 2019 at mega...WiseNaeem
Most of the electronics geeks are asking the whole list of Atmega AVR projects PDF here we will share lists every month as our projects are being updated on a daily basis. PDF is a good source to work offline. We will offer a direct PDF file download link with info of its release date, number of projects.
Minor Project Report: Automatic Door Control SystemSaban Kumar K.C.
This minor project is based on the automatic door control system used in a room or hall based on IR sensor. This project is applicable at such places where the people are busy and people are in large number.
Lecture handout given by Mohd. Ayub Khan in National Workshop on LabVIEW and its Applications.Organized at Dayalbagh Educational Institute,Dayalbagh,AGRA from 28-29 August 2015.
Embedded System, EMBEDDED SYSTEM: AN INTRODUCTION, ELEMENTS OF EMBEDDED SYSTEMS, CORE THE OF EMBEDDED SYSTEM, CHARACTERISTICS & QUALITY ATTRIBUTES OF EMBEDDED SYSTEMS, EMBEDDED HARDWARE FROM SOFTWARE PROGRAMMERS PERSPECTIVE,
시크 SICK Lector63x 2D DPM스캐너 고정식바코드스캐너 산업용바코드리더 이미지스캐너 매뉴얼HION IT
Lector63x 시리즈 제품군
Lector631
Lector632
2메가픽셀 센서 장착 코드 리더
렌즈 및 필터 디자인의 유연성
교체 가능한 내장형 High-Power 조명
기능 버튼, 레이저 조준 보조장치, 음향 피드백 신호 및 피드백 LED
고분해능 센서와 지능적 처리로 어려운 판독 조건에서도 최고의 판독 성능을 보장합니다.
구성이 유연한 광학 디자인과 고성능 조명으로 고속에서나 판독 거리가 먼 애플리케이션에서도 작은 코드를 판독할 수 있습니다.
직관적 인터페이스, 장치 장착을 신속하게 해주는 기능 버튼, 내장된 조명과 조준 레이저 덕분에 신속하고 용이한 커미셔닝
음향 신호와 물체 위 컬러 피드백 스폿으로 즉각적 결과 점검 가능
microSD 메모리 카드로 간단하게 복제 기능을 활용할 수 있어 생산 라인 장애 시 기계 작동 정지 시간이 감소됨
FEATURES
Focus : Adjustable focus (manually)
Sensor : CMO S matrix sensor, gray scale values
Light source ;
To be ordered separately as accessory
Aiming laser: visible red light (λ = 630 nm ... 680 nm)
Laser class : 1, complies with 21 CFR 1040.10 except for the tolerance according to “Laser Notice No. 50”from June 24, 2007 (IEC 60825-1 (2007-3))
Scanning frequency : ≤ 50 Hz, at 1.9 megapixels resolution
Code resolution : ≥ 0.1 mm 1)
Reading distance : 50 mm ... 2,200 mm
PERFORMANCE
Bar code types : GS1-128 / EAN 128, UPC / GTIN / EAN, Interleaved 2 of 5, Pharmacode, GS1 DataBar, Code 39, Code 128, Codabar, Code 32, Code 93, USPS (Postnet, Planet, USPS4SCB), Australian Post, Dutch KIX Post, Royal Mail, Swedish Post
2D code types : Data Matrix ECC 200, GS1 Data-Matrix, MaxiCode, QR code
Stacked code types : PDF 417
Code qualification : On the basis of ISO/IEC 16022, ISO/IEC 15415, ISO/IEC 18004
INTERFACES
Serial (RS-232, RS-422) ;
Function : Host, AUX
Data transmission rate : 300 Baud ... 115.2 k Baud, AUX: 57.6 kBaud (RS-232)
USB : USB 2.0
Ethernet ;
Function : Host, AUX, image transmission
Data transmission rate : 10/100/1,000 Mbit/s
Protocol : TCP/IP, FTP (image transmission), EtherNet/IP, PROFINET (optional over external fieldbus module CDF 600-2)
CAN bus ;
Function : SICK CAN sensor network (Master/Slave, Multiplexer/Server)
Data transmission rate : 250 kbit/s ... 500 kbit/s
Protocol : CSN (SICK CAN Sensor Network)
PROFIBUS DP : Optional over external fieldbus module (CDF600-2)
Switching inputs : 4 (“Sensor 1”, “Sensor 2”, 2 inputs via optional CMC600 parameter memory in CDB650/CDM 420)
Configurable inputs : Encoder input, external trigger
Switching outputs : 6 (CDB650: “Result 1”, “Result 2”, “Result 3”, “Result 4”, 2 external outputs via CMC600 or CDM420: “Result 1”, “Result 2”, 2 external outputs via CMC600 or cable with open end:“Result 1”, “Result 2”, “Result 3”, “Result 4”)
“device ready”
Reading pulse : Switching inputs, non-powered, serial interface, Ethernet, CAN , auto pulse, presentation mode
Optical indicators : 11 LEDs (5 x status display, 5 x LED bar graph, 1 green/red feedback spot)
Acoustic indicators : Beeper (configurable)
Control elements : 2 buttons
Configuration software : SOPAS ET
Memory card : Micro SD memory card (flash card) max. 32 GB , optional
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
This is a 16-slides presentation developed for didactic purposes: take over the design, development and evaluation of a pervasive system, whose goal is to address a real-world problem through an end-user driven design.
It's an assignment of "Pervasive System" course at "Sapienza, University of Rome", master degree in "Computer Science", faculty of "Information Enegineering, Informatics and Statistics", A.Y. 2017-2018.
This is the final presentation of the above-mentioned group project: a smart stopwatch for recording athletic training. It's composed by three sections:
- Brief system's introduction and overview.
- Description of systems's components: hardware and software architecture.
- Description of prototype's evolution on the basis of user evaluation.
- Demo of the system.
If you are interested in retracing the entire development process of the project, you can consult all the presentations with this topic:
1. https://www.slideshare.net/AntonioIonta/my-fitness-system-initial-ideas
2. https://www.slideshare.net/AntonioIonta/chronosmart-overview-user-evaluation
3. https://www.slideshare.net/AntonioIonta/chronosmart-mvp
4. https://www.slideshare.net/AntonioIonta/chronosmart-final-presentation-101093689
Team members for group project:
- Ionta Antonio (https://www.linkedin.com/in/antonio-ionta-a349b515a/ , https://github.com/A-I-18/)
- Luciano Antonio (https://www.linkedin.com/in/antonio-luciano-b04bb915a/ , https://github.com/theanto)
- Zollo Luigi (https://www.linkedin.com/in/luigi-zollo-85056915a/ , https://github.com/LuigiZ91)
Share ideas and get involved! Visit the GitHub page of the project: https://github.com/theanto/ChronoSMART
Webinar: Potencializando a Indústria 4.0 com tecnologias STEmbarcados
Objetivo: Apresentar aos desenvolvedores tecnologias inovadoras da ST que podem auxiliar nos projetos para a nova realidade da Indústria 4.0
Convidados :
Rogério Bueno - Engenheiro Eletrônico da STMicroelectronics
Cicero Pompeu - Gerente de Marketing de Microcontroladores da STMicroelectronics
Thiago Reis - Engenheiro de marketing da STMicroelectronics
Link para o Webinar: https://www.embarcados.com.br/webinars/webinar-potencializando-a-industria-4-0-com-tecnologias-st/
Contiki is an open source operating system for the Internet of Things. Contiki connects tiny low-cost, low-power microcontrollers to the Internet.
the presentation explains how to install the simulator, teach the reader some concepts of contiki OS, goes through API used in platform specific examples, and most importantly explains some example(Blinking example, Light and temperature sensor web demo).
Cold chain monitoring with Simplepack 4.0, SimpleIndustry and IO Frog platformSimple Hardware
For many businesses, cold chain monitoring is an extremely demanding solution for their logistics. The goal is to track perishable products, edibles, and food items with assured freshness and palatability as well as e.g. organ and blood transports. The temperature sensor plays a major part in delivering this solution to the market. In this webinar, we showcase the solution using Simple Hardware devices and IO Frog platform.
Host: Pavel Sodomka,
CEO at Simple Hardware
Ijeee 33-36-surveillance system for coal mines based on wireless sensor networkKumar Goud
Abstract: The foremost critical task for coal mine is of keeping track of miners spread out across a large mining areas .It becomes even difficult when mine tunnels collapse. Many mines use a radio system to track miners, but when a collapse occurs, the base stations connected by a thin wire often are rendered useless. In this project to overcome the demerits of radio system we used wireless technology for tracking the miners. For this purpose a small RF transmitter module is equipped to each person entering a mine. Each transceiver placed in the mine look after the location of miners. The transceivers communicate with base stations through Zigbee module. In addition of tracking the location of miners we also include sensors such as temperature & humidity to intimate the base station & miners when some atmosphere changes occur. Mine operators are now able to monitor the real-time locations of each miner to better pinpoint their locations in the event of an emergency. Even after a full-day of use, mine operators can locate an individual miner within ten feet.
Key Words: Wireless sensor networks (WSN), ZIGBEE, and LPC2148.
An improvised object detector, counter and width finder; using Arduino UNO, HC-SR04 Sonar and Servo Motor with real-time mapping using Processing. Devised a better algorithm for greater accuracy and speed.
Advanced Automation System in Industrial Applications Using PIC Microcontrol...IJMER
The main aim of this paper is to design and develop an advanced automation system in the
industries. In this technique we are using the GSM modem which have the SIM card present in it, the
user can send message on the 10 digit SIM number using the cell phone from any part of the world. The
micro controller is programmed using the embedded C. when the user will send the message to a
particular device that particular device will be on or we can also off the device. Example if the motor is
in over voltage, under voltage, over current in that time the microcontroller will trip the circuit and give
the message feedback to the user. The micro controller will read the temp from the sensor and it will
display the same on the LCD when the incoming temp crosses the set limit the micro controller will turn
OFF the device and will send the message to owner using the SIM card present in the GSM modem. We
can also check the continuous status of the device.
Automatic Irrigation System Project ReportEr Gupta
The objective of this project is to provide a combination of manual supervision and partial automation and is similar to manual set up in most respects but it reduces the labour involved in terms of Irrigation design is simple , easy to install, microcontroller based circuit to monitor and record the values of temperature, soil moisture that are continuously modified and controlled in order optimize them to achieve maximum plant growth and yield
Similar to Webinar st: explorando sensor tile.box (20)
Webinar: Controle de motores BLDC e de indução trifásicoEmbarcados
Pensando nas aplicações que necessitam de controle de motor e na complexidade envolvida, a Microchip tem desenvolvido diversos componentes, algoritmos e ferramentas para ajudar no desenvolvimento para o produto ir para o mercado em perfeito funcionamento e com menor tempo de desenvolvimento. Nesse webinar apresentaremos como você pode desenvolver facilmente aplicações para controle de motores BLCD e de indução trifásico usando os algoritmos FOC, Zero-Speed/Maximum-Torque Control, six step e v/f, com os softwares e hardware da Microchip.
Assista a gravação em: https://embarcados.com.br/webinar-controle-de-motores-bldc-e-de-inducao-trifasico/
Neste webinar serão abordadas topologias e aplicações nas quais o uso de FPGA é vantajoso em relação ao uso de processadores. Serão apresentadas comparações de designs equivalentes em FPGA e em software, apontando os cenários em que o uso de cada uma das tecnologias tem melhor performance.
Webinar: Especificação de Componentes PassivosEmbarcados
Nessa apresentação, descreveremos brevemente uma visão geral do portfólio do Grupo Yageo. Também daremos um mergulho mais profundo em alguns grupos de produtos, como capacitores de alumínio e polímero de tântalo, bem como na linha de magnéticos, sensores e atuadores.
Webinar: Projeto de hardware utilizando Conversores DC/DCEmbarcados
O objetivo do webinar é apresentar os conversores DC/DC da Vishay, especialmente projetados para sistemas embarcados, baseados em microprocessadores e/ou FPGAs. Em geral, estes sistemas exigem baixas tensões e altas correntes. Os CIs conversores da Vishay foram projetados para cumprir essa função com alta eficiência e facilidade de projeto.
Apresentação da nova linha de microcontroladores Cortex-M da Microchip e o framework MCC Harmony. O principal foco será nova linha PIC32CX é voltada para aplicações de conectividade e segurança. Apresentando como implementar uma comunicação Ethernet TCP com segurança.
Um grande desafio no desenvolvimento de sistema Linux embarcado é garantir a reprodutibilidade do trabalho. Um sistema Linux possui milhares de opções de customização e, somado a isso, cada fabricante e chip possui suas especificações.
Foi para resolver esses e outros problemas que o Yocto Project foi criado pela The Linux Foundation.
Nesse webinar vamos abordar o uso do Yocto Projeto no dia a dia, os conceitos básicos de sua arquitetura e em quais tipos de aplicações onde seu uso é mais indicado.
Para mais informações: https://embarcados.com.br/desvendando-o-yocto-project/
Webinar: Bancada de eletrônica profissionalEmbarcados
Durante o webinar, discutiremos a importância da escolha correta dos instrumentos e ferramentas para a bancada de um profissional de eletrônica e os cuidados necessários para melhor aproveitamento e manutenção desses instrumentos.
Apresentaremos os itens indispensáveis para ter em sua bancada de eletrônica profissional e os critérios para a escolha dos mesmos.
Não perca a oportunidade de conhecer equipamentos de qualidade com excelente custo/beneficio e entender por que é importante investir em equipamentos adequados, aprendendo como dimensionar os itens de acordo com suas necessidades.
Webinar: Como projetar sensores de baixo consumo utilizando microcontroladore...Embarcados
Participe do nosso Webinar e descubra como os Microcontroladores PIC e AVR podem simplificar projetos de sensores de baixa potência.
Durante a apresentação, abordaremos os periféricos analógicos integrados e as atualizações mais recentes desses dispositivos, além de como eles interagem com um sistema maior. Também destacaremos os recursos de baixo consumo de energia presentes nos dispositivos PIC e AVR mais recentes.
Para facilitar o desenvolvimento com esses microcontroladores, mostraremos exemplos práticos de placas de demonstração e ferramentas disponíveis no mercado.
Se você quer aprender a desenvolver projetos de sensores de baixa potência com Microchip, este é o webinar certo para você! Inscreva-se agora mesmo e participe dessa oportunidade única de ampliar seus conhecimentos aprendendo com um especialista da Microchip. Venha tirar suas dúvidas ao vivo no webinar.
O que você aprenderá nesse webinar:
Microcontroladores de 8 bits da Microchip? PIC e AVR
Periféricos analógicos integrados e atualizações recentes
Como esses dispositivos interagem com um sistema maior
Recursos de baixo consumo de energia em dispositivos PIC e AVR recentes
Placas de demonstração
Ferramentas
Como podemos começar a desenvolver com Microchip?
Webinar: Desvendando o seguidor de linha: sensores, montagem e programação co...Embarcados
Neste webinar, discutiremos as etapas envolvidas na construção de um robô seguidor de linha. Exploraremos os principais sensores utilizados em robôs seguidores de linha, como o sensor infravermelho e o sensor de reflexão, e como eles são usados para detectar e seguir uma linha, incluindo um teste comparativo entre eles para a utilização do PID. Também abordaremos os materiais necessários para a construção do robô, incluindo a placa PCB e a impressão 3D, e como eles são usados para construir um robô preciso e robusto.
Além disso, iremos explorar as diversas ferramentas e técnicas disponíveis para simplificar o trabalho colaborativo em projetos de robótica, incluindo o uso de plataformas de compartilhamento de código e documentação.
O que você aprenderá neste webinar
Você aprenderá sobre as etapas para construção de um robô seguidor de linha, os principais sensores, materiais e técnicas utilizados. Também conhecerá ferramentas de trabalho colaborativo em projetos de robótica.
Apresentação
Diogo Lacerda
Técnico em Mecatrônica e graduando de Física de Materiais pela Universidade de Pernambuco. Começou a carreira profissional como professor de robótica e depois migrou para o ramo de sistema embarcados. Atualmente trabalha no CESAR com modelagem e impressão 3D, utilizando a manufatura aditiva como ferramenta para desenvolver protótipos para circuitos eletrônicos e mecanismos de forma mais barata e rápida. Fez parte da equipe de robótica CESAR-Voxar Labs, que é bicampeão na categoria @home pela Competição Brasileira de Robótica (CBR). Faz parte da rede colaborativa http://robolivre.com/ desde 2012, onde ministra oficinas e palestras sobre robótica e Arduino.
Webinar Gravado: Um Estudo sobre a I2C e o Futuro com a I3CEmbarcados
Para saber mais e assistir ao video, acesse: https://embarcados.com.br/webinar-um-estudo-sobre-a-i2c-e-o-futuro-com-a-i3c/
Durante o webinar, você aprenderá sobre as características e o funcionamento básico da I2C, suas aplicações e os desafios enfrentados ao projetar com essa interface. Além disso, você conhecerá as inovações e melhorias trazidas pela I3C e aprenderá como interoperar com a I2C.
Será feita também uma comparação entre os padrões e suas implementações físicas e lógicas, o que ajudará a entender melhor as diferenças e vantagens de cada um deles.
Não perca a oportunidade de aprimorar seus conhecimentos sobre a I2C e a I3C. Inscreva-se agora mesmo no nosso webinar e saiba tudo sobre essa interface e seu futuro!
Apresentação
Huéliquis Fernandes - Business Development Manager
Huéliquis é um experiente profissional da indústria de semicondutores. Nos últimos 25 anos trabalhou para a Future Electronics, Motorola/Freescale, ST Microelectronics e Renesas.
Yoshinori Kanno - Field Application Engineer
Yoshinori é formado em Engenharia Eletrônica e possui mestrado em Processamento Digital de Sinais. Nos últimos 20 anos, ele trabalhou na Philips/NXP e em distribuidores globais.
Matthew Sauceda - Sr. Principal Applications Engineer - Nexperia
Matthew Sauceda is a Sr Principal Applications Engineer for Nexperia. He holds a M.S in Electrical Engineering specializing in Analog and Mixed Signal VLSI design. His work experience includes 10+ years in semiconductor field through work as application/system/ hardware design in Texas Instruments, and Advanced Micro Devices. In his spare time he enjoys hobbies such as fishing, traveling, and woodworking.
Descrição do Webinar
Nesse webinar você conhecera as soluções da Infineon e a família de Microcontroladores Traveo T2G. Iremos abordar quais os pontos diferenciais nessa linha de Microcontroladores ARM Cortex M4 e M7 e quais itens a Infineon pode lhe oferecer para facilitar o desenvolvimento. Iremos apresentar o ecossistema de parceiros, ferramentas de desenvolvimento e aplicações foco da linha Traveo T2G e demonstrar o porquê ele tem sido o líder em aplicações automotivas e industriais, quando são necessários requisitos de low power, conectividade e segurança para Over-the-Air (OTA).
O que você aprenderá nesse webinar:
Após esse webinar você entendera quais os requisitos básicos e diferenciais da família de Microcontroladores Traveo T2G. Também conhecera o ecossistema e como começar a desenvolver seus projetos utilizando a família Traveo T2G, desenvolvida para sistemas automotivos e industriais que requerem desempenho, low power, conectividade e segurança com suporte técnico e vendas no Brasil.
Webinar: Introdução à Reconfiguração dinâmica parcial em FPGAsEmbarcados
Nesse webinar foi apresentado sobre reconfiguração dinâmica parcial em FPGAs Xilinx! Regina abordou sobre os conceitos e termos básicos dessa tecnologia, seu fluxo de implementação, prós e contras, aspectos relevantes e aplicações.
Webinar: Microprocessadores 32 bits, suas principais aplicações no mercado br...Embarcados
Junte-se a nós para saber mais sobre as soluções de microprocessador (MPU) da Microchip e como o System in Package (SiP) e o System on Modules (SoM) podem simplificar drasticamente o projeto da sua PCB e reduzir o tempo de lançamento no mercado. Os produtos System in Package (SiP) com DRAM integrada simplificam o projeto de PCB, melhoram a robustez geral de EMI do seu sistema, removem o problema de fornecimento de DRAM e problemas de software e podem, em última análise, reduzir os custos gerais do sistema abrindo a porta para projeto de PCB de 4 camada para sua aplicação. As soluções SOM da Microchip fornecem uma plataforma de hardware qualificada projetada para longa vida útil e ajudam você a acelerar suas primeiras construções de produção com os SOMs e otimizar o custo de BOM, passando posteriormente para soluções chip-down em volumes maiores usando os arquivos de design e suporte fornecidos pela Microchip. Você também aprenderá sobre a estratégia principal do Linux da Microchip com suporte de longo prazo e um caminho fácil para uma solução gráfica de baixo custo. Os MPUs Microchip são adequados para uma variedade de aplicações, incluindo aquelas nos setores de consumo, automotivo, industrial e médico.
Neste Webinar apresentaremos as principais soluções em Timming devices (Ressonadores e Cristas) Murata, suas tecnologias, materiais utilizados, aplicações, como identificar possíveis falhas e como utilizar ferramenta de seleção da Murata Simsurfing.
Tópicos do Webinar
Tecnologia Timing Devices
Ressonadores e Cristais
Vantagens dos Ressonadores Murata
Vantagens dos Cristais Murata
Como identificar possíveis falhas nos Ressonadores e Cristais.
Matching - como identificar melhor Cristal de acordo com microprocessador.
Ferramenta Murata Simsurfing
Aplicações
Webinar: Silicon Carbide (SiC): A tecnologia do futuro para projetos de potênciaEmbarcados
Descubra as vantagens de utilizar MosFETs e Gate Drivers com SiC.
O webinar abordará a tecnologia SiC, suas vantagens e aplicações no mercado brasileiro, com destaque para a relação entre SiC e carros elétricos. A Microchip oferece produtos relacionados à tecnologia SiC, como Mosfets, Gate Drivers, demoboards e reference designs. O webinar será uma ótima oportunidade para conhecer mais sobre essa tecnologia promissora e entender o que a Microchip tem a oferecer nesse segmento.
Webinar: Por que dominar sistema operacional Linux deveria ser a sua prioridade?Embarcados
O sistema operacional Linux tem sido cada vez mais utilizado em diferentes setores da indústria, especialmente na área de sistemas embarcados. Hoje o Linux embarcado é utilizado em dispositivos eletrônicos de diversas áreas, como automação industrial, automotiva, agrícola, medica, aeroespacial, de comunicação e de entretenimento.
Com a crescente demanda por profissionais qualificados em Linux Embarcado, é importante entender por que dominar esse sistema operacional deve ser sua prioridade como desenvolvedor de sistemas embarcados.
No webinar, discutiremos as principais razões pelas quais você deve investir em seu desenvolvimento em Linux e como isso pode abrir portas para novas oportunidades profissionais. Também serão abordados os principais recursos e funcionalidades do Linux, além de dicas práticas para aprimorar suas habilidades como desenvolvedor.
Webinar: Estratégias para comprar componentes eletrônicos em tempos de escassezEmbarcados
Neste webinar, abordaremos a situação atual do mercado mundial de componentes para auxiliar as empresas de manufatura na elaboração de estratégias eficientes para a programação de compras.
Forneceremos informações valiosas para profissionais que atuam em departamentos de produto, compras e suprimentos. Além disso, apresentaremos como utilizar sua lista de materiais para realizar compras consolidadas e programadas, bem como outras ferramentas úteis para o processo de aquisição de materiais e suprimentos.
Webinar: ChatGPT - A nova ferramenta de IA pode ameaçar ou turbinar a sua car...Embarcados
Ninguém esperava isso. Com diferentes níveis de espanto, admiração ou surpresa, as pessoas descobriram o chatGPT e sua utilidade. Seria algo tão novo assim, sem nenhum precedente? E, o mais importante, será o fim do trabalho dos programadores? O que isso pode significar para quem está hoje, na bancada? Este webinar explora o tema, tentando apontar e auxiliar os desenvolvedores a tomar as melhores decisões nesse novo cenário.
Objetivo do Webinar
Debater pontos positivos e importantes sobre estas novas tecnologias. Avaliar o risco que trazem e o benefício que geram. Abraçar uma novidade que aumenta a produtividade de forma significativa, sem preconceitos ou restrições sem fundamento sempre colocam os praticantes em vantagem competitiva.
Webinar: Power over Ethernet (PoE) e suas aplicações no mercado brasileiroEmbarcados
Neste webinar vamos explorar os seguintes temas:
O que é Power over Ethernet (PoE)
Por que os desenvolvedores devem selecionar os dispositivos do sistema Microchip PoE
Como o portfólio de dispositivos e sistemas PoE da Microchip garante que o cliente tenha a solução adequada para cada situação
Exemplos de onde a Microchip implantou com sucesso suas soluções PoE
O que considerar ao pensar no desenvolvimento do projeto do PoE
Webinar: Utilizando o Yocto Project para automatizar o desenvolvimento em Lin...Embarcados
Nesse webinar conheceremos o Yocto Project, um conjunto de ferramentas open-source que possuem o objetivo de facilitar o desenvolvimento de distribuições e sistemas Linux. Também vamos entender como utilizar a ferramenta pode auxiliar na automatização do desenvolvimento de sistemas Linux Embarcado.
https://embarcados.com.br/webinar-utilizando-o-yocto-project-para-automatizar-o-desenvolvimento-em-linux-embarcado/
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
This is a hands-on session specifically designed for automation developers and AI enthusiasts seeking to enhance their knowledge in leveraging the latest intelligent document processing capabilities offered by UiPath.
Speakers:
👨🏫 Andras Palfi, Senior Product Manager, UiPath
👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
Slack (or Teams) Automation for Bonterra Impact Management (fka Social Soluti...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
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Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
6. Play with Sensors:
Log data and
explore new sensor
functionalities
Proof of Concept:
Test and validate
your ideas by
customizing the App
Rapid Prototyping:
Customize, write
code and make it
yours
Get Familiar with Sensors and Speed Up your Development
11. Inside the SensorTile.box
Sensing, Processing and Connectiviy
11
Low-power 6-axis IMU, with
Machine Learning Core
LSM6DSOX
High-performance and low
power accelerometers
LIS3DHH & LIS2DW12
Magnetometer
LIS2MDL
Altimeter / Pressure sensor
LPS22HH
Accurate temperature sensor
STTS751
Humidity sensor
HTS221
Analog wide-band microphone
MP23ABS1
Motion Sensors Environmental Sensors Processing
STM32L4 low-power MCU
STM32L4R9ZIJ6
Connectivity
Bluetooth Low Energy Module
SPBTLE-1S
Power management
Battery charger
STBC02
12. Entry Working Mode
No Need to Program Anything
12
Entry
Mode
Human Activity
Recognition
Pedometer
Sensor Fusion
Quaternion
Compass And
Level
Vibration
Monitor
Data Recorder
AI based
In-Vehicle
Baby Alarm
Baby Crying
Detector
Barometer
13. Expert Working Mode
Expert
Mode
• Define additional applications, like in Lego bricks
• Build his own application, without programming
6
14. Pro Working Mode 14
Pro
Mode
Full compatibility and support of STM32 ODE
Professional Level of Development
FP-SNS-STBOX1 AlgoBuilder
Unicleo GUI
16. Vibration Analysis – SensorTile.box 16Machinecondition
Time
Conditions
start to
change
Vibration
Noise
Heat
Power
Smoke
Failure
minutes
days
months
weeks
From Entry to Pro Mode Experiences
17. Entry Mode: Vibration monitoring
Vibration monitoring: FFT transform of data from wideband accelerometer
Enables predictive maintenance
• 1st step is training
• Record typical/normal data on SD card
• 2nd step is compare
• Compare and turn-on LED if atypical/abnormal (this can be the early warning)
17
18. Vibration monitoring - Training 18
1. Press the button
Create apps
2. Vibration Monitor
(Training)
3. Touch
to upload
4. Touch
to upload
19. Vibration monitoring - Training 19
1. Press the button
Connect to a device
2. Select your
SensorTile.Box
3. Touch
Start Logging
4. Touch
Stop Logging
Setting baseline vibration
20. Vibration monitoring - Training 20
1. Connect via USB, select USB drive
and copy gold_vibration_pattern.csv
2. Get CSV data, open with
Excel or any text editor
FFT LOG ON SD CARD
21. Vibration monitoring - Compare 21
1. Press the button
Create apps
2. Vibration Monitor
(Compare)
3. Touch
to upload
4. Touch
to upload
22. Vibration monitoring - Compare 22
1. Confirm it is
Ok
2. Wait for the upload
to be completed
3. On confirmation
touch Ok
4. Go back
main screen
23. Vibration monitoring - Compare 23
1. Press the button
Connect to a device
2. Select your
SensorTile.Box
3. Typical/normal
LED is OFF
4. Atypical/abnormal
LED is ON
Vibration
OK
Vibration Outside
Baseline
24. Vibration monitoring - Compare 24
1. Typical/normal
LED is OFF
2. Atypical/abnormal
LED is ON
3. Start and stop logging,
get CSV data
25. Entry Mode → Expert Mode 25
Creating a customized Vibration Monitoring Application
Key Customization Features in Expert Mode:
• Select desired input → Wide bandwidth accelerometer (vibrometer)
• Select functions → FFT transform (256 points)
• Select outputs → Stream to Bluetooth
• Save customized application
26. Vibration Monitoring App 1/4 26
1. Press the button
Create apps
2. Scroll down, touch
Expert view
3. Touch
New app
Run the ST BLE
Sensor app.
4. Touch to select
an input
27. Vibration Monitoring App 2/4 27
1. Select Vibrometer,
then Set Input
2. Touch the gear
to change settings
3. High perf, 50Hz,
HPF, Save Config
4. Touch to select
a function
28. Vibration Monitoring App 3/4 28
1. Select
FFT
2. Touch the gear
to change setting
3. Select FFT length,
then Save Config
4. Touch to select
output method
29. Vibration Monitoring App 4/4 29
1. Stream to BLE,
then Continue
2. Touch
Save App
3. Set name,
then Finish
4. The new app
is READY!
Vibration Monitor
Vibration Monitor
30. Vibration Monitoring App - Evaluation 1/3 30
1. Touch
to upload
2. Touch
Ok
3. Wait for the upload
to be completed
4. Touch
Ok
31. Vibration Monitoring App - Evaluation 2/3 31
1. Touch to go back
to main screen
2. Touch
Connect to a device
3. Select your
device
4. Vibration
trial
32. Vibration Monitoring App - Evaluation 3/3 32
1. Low frequency
vibration
2. Higher frequency
vibration
33. Expert Mode → Professional Mode 33
Full compatibility and support of STM32 ODE
Key Features in Professional Mode:
• STM32 Programming
• Dedicated STM32 Cube Function Pack – FP-SNS-STBOX1V1
• AlgoBuilder
• UnicleoGUI
34. AlgoBuilder 34
An application for the graphical design and testing of algorithms
Existing algorithms
User-defined data processing
blocks
Additional functionalities
GUI quickly elaborates proto applications
for
MEMS sensors
and
STM32 microcontrollers
AlgoBuilder
eases the process of
implementing
proof of concept
without writing the code
36. Unicleo GUI
• Displays data from connected sensors (time
plot, scatter plot, 3D plot)
• Saves data to tab separated (TSV)
or comma separated (CSV) files
• Program Nucleo with selected
MotionXX middleware library
• Reads from and writes to registers
of sensors on X-Nucleo boards
• Connects over USB or BLE
• Supports many platforms
• Nucleo-L476/F401/L152/L073 with
X-Nucleo-IKS01A2/A3 or IKS02A1
• BlueNRG-Tile
• SensorTile.box
36
38. AlgoBuilder – Vibration Monitor 38
3. Click OK
2. Select Target NUCLEO-L476RG + X-NUCLEO-IKS01A3
1. Select the desired compiler, in this example: STM32CubeIDE
39. AlgoBuilder – Vibration Monitor 39
1. Place [Sensor Hub] to workspace
2. Change Accelerometer Full Scale to 4g
3. Output Data Rate ODR 100Hz
40. AlgoBuilder – Vibration Monitor 40
1. Add Acceleration [g] function block
2. Connect the blocks
41. AlgoBuilder – Vibration Monitor 41
1. Add Graph function block
3. Connect the blocks
2. Set properties, change default values:
• Number of Curves:3
• Graph Name: Acceleration
• Waveform1: X axis
• Waveform2: Y axis
• Waveform3: Z axis
42. AlgoBuilder – Vibration Monitor 42
1. Add Demux Float function block from the Other library
2. Set properties 3 outputs
3. Connect
43. AlgoBuilder – Vibration Monitor 43
1. Add 3x FFT function block from the FFT Library
2. Set properties 256 data length for the 3 blocks
3. Connect the blocks
44. AlgoBuilder – Vibration Monitor 44
1. Add 3x FFT Plot function block from the Display Library
2. Add to Plot Name the axes FFT plot X, Y and Z
for each block
3. Set properties 256 data length & Full Scale 1 for all blocks
4. Connect the blocks
45. AlgoBuilder – Vibration Monitor 45
1. Add 3x FFT PEAK function block from the FFT Library
2. Set properties 256 data length for all the blocks
3. Connect the blocks
46. AlgoBuilder – Vibration Monitor 46
1. Add MUX float function block from the Other Library
2. Set properties 6 inputs
3. Connect the blocks
47. AlgoBuilder – Vibration Monitor 47
1. Add Value function block from the Display library
2. Set properties 6 values and the labels
3. Connect the blocks
54. FP-SNS-STBOX1
• BLEMLC Machine Learning Core demo, config by Unico GUI
54
Simple application example using the MLC (Machine Learning
Core) embedded in LSM6DSOX, which also embeds the FSM
(Finite State Machine).
The Unico GUI is the tool to generate the code to configure the
MLC in the sensor. A third party tool is used to design the decision
trees. – see BLEMLC details
55. LSM6DSOX Smart Sensor 55
Sensing &
pre-
processing
High-level
processing
Sensing
Full activity
monitoring
processing
Power
optimization
at system
level
Finite State Machine Machine Learning Core
NEXTRESET
COMMAND
PARAMETERS
CONT
node
nodenode
node
Start node
node
The first Smart Sensor embedding
FSM and MLC allows sensors to process data with reduced help of a host Microcontroller
Start
NEXTRESET
NEXTRESET
56. BLEMLC: Application Example 56
Using the
ST BLE
Sensor
app.
1. Select
Activity Recognition
2. Try different
Activities
3. Display activity
in real-time
57. Design Flow
Tutorials
57
Step by step guide on YouTube,
STMicroelectronics channel
• LSM6DSOX
• Introduction to design flow
• Data collection
• Labeling and features
• Decision Tree generation
• Register configuration
58. More MLC examples from ST 58
https://github.com/STMicroelectronics/STMems_Machine_Learning_Core
59. FP-AI-SENSING1 59
• The package enables advanced
applications such as human activity
recognition or audio scene classification, on
the basis of outputs generated by neural
networks (NN)
• The NN are implemented by a multi-
network library supporting both floating and
fixed point arithmetics, generated by the X-
CUBE-AI extension for STM32CubeMX
tool.
STM32Cube function pack: IoT node with artificial intelligence (AI) application
60. FP-ATR-BLE1 60Coming Soon
• The FP-ATR-BLE1 is STM32Cube Function
Pack for low power asset tracking using
BLE connectivity for the SensorTile.box
Key features
• Complete sample application on how to
create one asset tracking application
controlled by BLE connectivity
• uSD DataLogging
• Wake-up, Tilt and Orientation detection
by the on-board accelerometer
Pro Mode: Asset Tracking Function Pack
62. Entry Mode:
Log data and
explore new sensor
functionalities
Expert Mode:
Test and validate
your ideas by
customizing the App
Professional Mode:
Customize, write
code and make it
yours
SensorTile.box Hardware
64. ST Community – Mass Market Support
For more information on sensors: www.st.com/sensors
Information on longevity: 10yr Longevity Program
Android / Linux / Open Drivers: Drivers for MEMS
Mass Market Support: Online Support
64
• YouTube Videos:
65. Takeaways
• Internet of Things offers many opportunities for ST
from Sensor to Cloud
• ST has all the building blocks for the IoT
• Our Sensors portfolio brings high performance devices from
consumer to industrial applications
• SensorTile.box jumpstarts your understanding, evaluation and
development of sensors targeting IoT and wearable
applications
• We keep the commitment on MEMS innovation
• Our constantly expanding development ecosystem
makes design fast
65