ASML HOLDINGS is a lithography machine company with a vision to make affordable microelectronics that improve quality of life. Their mission is to develop lithography machines, metrology systems, and software that allow customers to follow Moore's Law and produce smaller, cheaper, more powerful semiconductors. Lithography is important because it is the key technology that allows manufacturers to make transistors on chips smaller, driving continued advancement.
The document summarizes the key points from a technical seminar on sensor technology presented by Sharenya. It discusses sensor design features and trends in sensor technology, focusing on miniaturization and the increasing use of multi-sensor and wireless systems. The main advantages of sensors are listed as high accuracy, resolution, reliability and energy efficiency. Examples of sensor uses include detection of light, motion, temperature, pressure as well as vehicle speed and environmental molecules.
Sensoplex - Your Partner in the Wearables' MarketSensoplex
Sensoplex is a Silicon Valley company expert in sensing, wireless and low power computing technologies.
We provide leading edge professional services for the definition, development and production of innovative wearables for fitness, wellness and health applications.
Our development kits enable customers to rapidly test & expand their ideas and applications in their market.
Our proven flexible hardware & software frameworks provide a solid foundation for customers to develop their product in record time.
Working together we can reduce your time-to-money by as much 50%.
Physiological monitoring has become increasingly popular with the availability of advanced technology. Techtiles aims to consolidate sensors that normally are not found together on one device to monitor a user's heart activity, breathing, and movement and process the data to compute heart rate, respiration rate, steps, distance, and energy burned. The prototype demonstrated accuracy within 17 beats/min for heart rate, 10 breaths/min for respiration, and was able to be worn comfortably for monitoring purposes.
Meet NODE+, a handheld sensor powerhouse that connects to your mobile device via Bluetooth 4.0 Smart (Low Energy) and Bluetooth 2.1 Classic. The NODE+ Sensor Platform also includes a 9 degrees-of-freedom motion engine (gyroscope, accelerometer, magnetometer), and two expansion ports on either end where you can attach any NODE+ sensor module to enhance your NODE+’s functionality.
Sensor modules sold separately.
Artificial Intelligence is being called the new electricity, data the new currency. Data processing platforms in the cloud are lowering the barriers to entry. What are the opportunities and challenges for companies to use data as an enabler for disruptive innovation?
Smart sensors integrate a sensor, processor and communication interface into a single package. They can identify themselves, calibrate automatically and transmit digital sensor data remotely. Some key applications of smart sensors include smart grids, environmental monitoring, traffic control, and robotics. Smart sensors increase speed, efficiency and accuracy in data collection while aiding automation and reducing space needs compared to traditional sensors. Common types are level, temperature, pressure, infrared and proximity sensors. Smart sensors are important for Industry 4.0 as they can continuously monitor industrial processes and send data to cloud platforms.
This document summarizes a student presentation on an IoT-based intelligent gas leakage detector using Arduino. The system detects LPG gas leaks using an MQ5 gas sensor connected to an Arduino board. If a leak is detected, it sends SMS alerts to notified users and sounds an alarm. It also displays the gas level on an LCD screen and can automatically shut off the gas supply using a solenoid valve. The system is designed to prevent accidents from gas leaks in homes and other locations in a low-cost and easy-to-use manner. It aims to provide safety and security by quickly detecting leaks and alerting people remotely via IoT technology.
ASML HOLDINGS is a lithography machine company with a vision to make affordable microelectronics that improve quality of life. Their mission is to develop lithography machines, metrology systems, and software that allow customers to follow Moore's Law and produce smaller, cheaper, more powerful semiconductors. Lithography is important because it is the key technology that allows manufacturers to make transistors on chips smaller, driving continued advancement.
The document summarizes the key points from a technical seminar on sensor technology presented by Sharenya. It discusses sensor design features and trends in sensor technology, focusing on miniaturization and the increasing use of multi-sensor and wireless systems. The main advantages of sensors are listed as high accuracy, resolution, reliability and energy efficiency. Examples of sensor uses include detection of light, motion, temperature, pressure as well as vehicle speed and environmental molecules.
Sensoplex - Your Partner in the Wearables' MarketSensoplex
Sensoplex is a Silicon Valley company expert in sensing, wireless and low power computing technologies.
We provide leading edge professional services for the definition, development and production of innovative wearables for fitness, wellness and health applications.
Our development kits enable customers to rapidly test & expand their ideas and applications in their market.
Our proven flexible hardware & software frameworks provide a solid foundation for customers to develop their product in record time.
Working together we can reduce your time-to-money by as much 50%.
Physiological monitoring has become increasingly popular with the availability of advanced technology. Techtiles aims to consolidate sensors that normally are not found together on one device to monitor a user's heart activity, breathing, and movement and process the data to compute heart rate, respiration rate, steps, distance, and energy burned. The prototype demonstrated accuracy within 17 beats/min for heart rate, 10 breaths/min for respiration, and was able to be worn comfortably for monitoring purposes.
Meet NODE+, a handheld sensor powerhouse that connects to your mobile device via Bluetooth 4.0 Smart (Low Energy) and Bluetooth 2.1 Classic. The NODE+ Sensor Platform also includes a 9 degrees-of-freedom motion engine (gyroscope, accelerometer, magnetometer), and two expansion ports on either end where you can attach any NODE+ sensor module to enhance your NODE+’s functionality.
Sensor modules sold separately.
Artificial Intelligence is being called the new electricity, data the new currency. Data processing platforms in the cloud are lowering the barriers to entry. What are the opportunities and challenges for companies to use data as an enabler for disruptive innovation?
Smart sensors integrate a sensor, processor and communication interface into a single package. They can identify themselves, calibrate automatically and transmit digital sensor data remotely. Some key applications of smart sensors include smart grids, environmental monitoring, traffic control, and robotics. Smart sensors increase speed, efficiency and accuracy in data collection while aiding automation and reducing space needs compared to traditional sensors. Common types are level, temperature, pressure, infrared and proximity sensors. Smart sensors are important for Industry 4.0 as they can continuously monitor industrial processes and send data to cloud platforms.
This document summarizes a student presentation on an IoT-based intelligent gas leakage detector using Arduino. The system detects LPG gas leaks using an MQ5 gas sensor connected to an Arduino board. If a leak is detected, it sends SMS alerts to notified users and sounds an alarm. It also displays the gas level on an LCD screen and can automatically shut off the gas supply using a solenoid valve. The system is designed to prevent accidents from gas leaks in homes and other locations in a low-cost and easy-to-use manner. It aims to provide safety and security by quickly detecting leaks and alerting people remotely via IoT technology.
The arca of iris one asprs 2009 armando guevaraArmando Guevara
The document introduces a new modular and scalable digital aerial imaging sensor called ARCA of Iris. It is designed to address the challenges of rising costs of current sensors, which are often single-purpose and have proprietary architectures and high obsolescence rates. The ARCA sensor architecture is based on a "Lego-like, plug & play" modular design that can be scaled from small to large formats. It aims to provide imagery at lower costs with improved performance compared to current sensors.
Embedded system projects for final year BangaloreAidell2583
This document discusses several embedded system and engineering projects that could be implemented as final year student projects. It provides examples of embedded system projects involving mind control robots, clock automation, sound detection systems, and more. It also lists various application areas for embedded systems like consumer electronics, medical devices, automobiles, and more. Finally, it provides contact information for an engineering project lab in Bangalore, India that offers support for students to implement different types of final year projects.
SensorThings API Webinar - #1 of 4 - IntroductionSensorUp
This document introduces the OGC SensorThings API. It begins with an agenda that covers introducing IoT and sensor web, an overview of the SensorThings API and its benefits, and two case studies. It then provides background on the presenter and his company SensorUp, who developed the first implementation of the SensorThings API. The rest of the document discusses what the SensorThings API is, its benefits like being open, location-intelligent, and reducing time to market, and examples of its applications in environmental monitoring and disaster response. FAQs are addressed and two case studies are described in more detail.
This document introduces a new modular and scalable digital aerial imaging sensor called the ARCA of Iris. The ARCA uses a "Lego-like, plug & play" architecture of modular camera arrays to create a sensor system that is smaller, lighter, faster, and more economical than existing single-purpose sensors. This new sensor aims to address the challenges of rising costs in aerial imaging and the need for more flexible, multi-purpose sensor systems. The key components of the ARCA sensor include its modular camera array design, multispectral camera modules with no moving parts, and software that enables the arrays to capture imagery at up to one frame per second for assembly into orthorectified mosaics.
IRJET- Hand Movement Recognition for a Speech Impaired PersonIRJET Journal
This document describes a system to recognize hand gestures from a speech-impaired person and convert them to speech using a flex sensor glove and microcontroller. The system uses flex sensors attached to a glove to detect hand movements and gestures. The microcontroller matches the gestures to a database of templates and outputs the corresponding speech signal through a speaker. This allows speech-impaired individuals to communicate through natural hand gestures that are translated to audio speech in real-time. The system aims to help overcome communication barriers for those unable to speak.
The document describes the design of a smart watch based on e-paper. It discusses how the watch can display time as well as provide multiple functions through the use of e-paper, which has advantages of small size, light weight, low cost and power consumption. The watch uses an STM32 microprocessor connected to an acceleration sensor and Bluetooth module to receive information and display steps counted and other data on the e-paper for health monitoring. Future work may include adding other sensors and improving power efficiency.
The SDI Team reports from the ISC West conference, including industry trends, new technologies, and security market observations. Whether you were in attendance at the ISC West conference or not, please find our following takeaways to assist you with keeping your organization up to speed with industry developments.
Proof of concepts and use cases with IoT technologiesHeikki Ailisto
Set of proof of concept and use cases with internet of things technologies are presented with one sliders. In each case, the IoT challenge, result, benefits and use case example are given.
Iot based Patient Health Monitoring System.pptxharimaxwell0712
The main aim of IoT based patient health monitoring
system is to continuously track and monitor patient
Oxygen(SPO2), Pulse, Temperature and provide
information to doctors, nurses, and other caretakers it has
an inbuilt keypad with default functions that patients can
use it and can take help in any emergency. Health
Monitoring System can be operated and controlled either
by a mobile phone or manually from any location. This
system makes it easy to check on the status of the patient
and also provides data for doctors, patients, nurses, and
caretakers
Integrated smart sensors provide continuous process and diagnostic data to increase productivity, minimize downtime, and enable faster product changeovers. Smart sensors offer advanced diagnostic information to facilitate preventative maintenance and reduce unplanned downtime. Multiple sensor profiles stored in programmable logic controllers allow fast changeovers between products to increase throughput by 5-10%.
The multiple applications (Forest, Industrial, Home) sector being the backbone of the security system. Security systems which are being used now a day are not smart enough to provide real time notification after sensing the problem. This Project is very useful in industrial monitoring system, forest safety and controlling an application. The Processing Sensor analysis of PIR sensors, Fire, air, temp sensors based multiple sector Analysis industrial, human identification and Any Identification Indicate LCD Display and Web camera Based Any Problem Capture Stored Image Data base. In the present work a PIC Microcontroller based the remote irrigation system is developing for the multiple process. The microcontroller use to controlling and displaying the resultant sensor values LCD Display Identifying System.
These slides give brief description about Wireless Sensor Network and Different uses of WSN.
It also gives basic working principle of sensors and real life applications of wireless sensor network.
This also describes the structure of TinyOS and working principle of TinyOS
The team proposes to develop encryption solutions suitable for common microcontrollers used in IoT devices. Their goal is to create transparent encryption that is easy for makers to implement. Their initial idea is an open source encryption library, educating the public, and a website hosting the libraries. They discuss alternative ideas like encrypted chips or an encryption software optimized for medical devices. Their final MVP is a communication system design service to improve cybersecurity in medical devices, with the goal of transitioning to other applications.
IoT Standardization and Implementation ChallengesAhmed Banafa
The rapid evolution of the IoT market has caused an explosion in the number and variety of IoT solutions.
Additionally, large amounts of funding are being deployed at IoT startups.
Consequently, the focus of the industry has been on manufacturing and producing the right types of hardware to enable those solutions.
Smart Sensor Configuration for Security System Automation Using FPGAIJTET Journal
Abstract--- Automation in industrial control and monitoring systems plays a vital role in maintaining smooth work environment and handling perilous situation that may occur in work area. The available systems mostly use physical cables for signal transfer between the sensors and the control system. These systems have some significant problems such as the cable installation and maintenance costs associated with moving and replacement of cables during machinery maintenance, configuration and re-configuration. While the technological evolution of sensors is reflected in sensors getting smart, small, light weight, and cheapest, another key development is taking place in the sensors industry in the growth of wireless sensor use in industrial applications. The proposed wireless sensor-based controls provide industry attention in order to reduce costs, better power management and ease in maintenance. Wireless sensors have been successfully implemented in many industrial applications because of its performance, monitoring, security development and control the sensor system etc.
Heterointegration Coming of Age in 2015 - MEF 2015Paul Werbaneth
Heterogeneous integration, which involves integrating different device technologies such as CMOS and MEMS onto a single chip, is coming of age commercially. This integration allows for more sophisticated capabilities in smaller form factors by enabling multiple sensors, signal processing, and telemetry capabilities. Commercial examples of heterogeneous integration discussed in the document include Sony's stacked CMOS image sensors using TSVs, SiTime's MEMS oscillators integrated using epi-poly sealing, and various MEMS startups developing novel integration approaches like mCube's monolithic MEMS-on-CMOS using through-silicon vias. The document examines the definition and various approaches to heterogeneous integration in the microelectronics industry.
This document describes a system to automatically monitor and display the level of bagasse in a silo at a sugar factory. Currently, workers must visually check the level through glass on the silo, which can lead to errors. The proposed system uses an ultrasonic sensor to measure the bagasse level, and sends the measurement to an Arduino board connected to an LCD display. This allows the level to be digitally monitored without human involvement. A DC motor is also included to automatically open and close a door based on the measured level. The system aims to reduce human errors and provide an accurate method for determining the amount of bagasse available in the silo.
Berikut Kami Informasikan Produk Unggulan dari berbagai merk ternama yang sudah teruji kualitasnya
Untuk Anda yang membutuhkan Informasi Promo Terbaik dapat Menghubungi :
Ade Fazrin
Hp : 0853 1402 8282
Pib BB : 5db51ced
Susep Abdurohim
Hp : 0812 1089 5144
IoT Based Home Automation System_revised_27_06_2021.pptxCUInnovationTeam
This document describes the design and implementation of a home automation system using IoT. The system uses an Arduino microcontroller connected to various sensors to monitor temperature, gas, fire and motion. When thresholds are exceeded, the system triggers appliances like exhaust fans and alerts authorities via SMS. It allows remote monitoring and control of home appliances over WiFi. The objectives are to develop a low-cost home security, safety and energy saving system. Block diagrams and lists of equipment are provided. Advantages include easy access and control from anywhere, reduced human intervention, improved safety and efficiency.
IRJET- Fuel Theft Detection Location Tracing using Internet of ThingsIRJET Journal
This document summarizes a research paper on a fuel theft detection and location tracing system using Internet of Things. It discusses how the current framework has low accuracy in detecting fuel theft from vehicle tanks. The proposed system uses a flow sensor to calculate the amount of fuel filled and an ultrasonic sensor to continuously monitor the fuel level. If a sudden drop in fuel level is detected, the system will ring an alarm and notify the vehicle owner. It also allows fraudulent activities to be directly reported to authorities. The system stores historical data for future use.
Impartiality as per ISO /IEC 17025:2017 StandardMuhammadJazib15
This document provides basic guidelines for imparitallity requirement of ISO 17025. It defines in detial how it is met and wiudhwdih jdhsjdhwudjwkdbjwkdddddddddddkkkkkkkkkkkkkkkkkkkkkkkwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwioiiiiiiiiiiiii uwwwwwwwwwwwwwwwwhe wiqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq gbbbbbbbbbbbbb owdjjjjjjjjjjjjjjjjjjjj widhi owqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq uwdhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhwqiiiiiiiiiiiiiiiiiiiiiiiiiiiiw0pooooojjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjj whhhhhhhhhhh wheeeeeeee wihieiiiiii wihe
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The arca of iris one asprs 2009 armando guevaraArmando Guevara
The document introduces a new modular and scalable digital aerial imaging sensor called ARCA of Iris. It is designed to address the challenges of rising costs of current sensors, which are often single-purpose and have proprietary architectures and high obsolescence rates. The ARCA sensor architecture is based on a "Lego-like, plug & play" modular design that can be scaled from small to large formats. It aims to provide imagery at lower costs with improved performance compared to current sensors.
Embedded system projects for final year BangaloreAidell2583
This document discusses several embedded system and engineering projects that could be implemented as final year student projects. It provides examples of embedded system projects involving mind control robots, clock automation, sound detection systems, and more. It also lists various application areas for embedded systems like consumer electronics, medical devices, automobiles, and more. Finally, it provides contact information for an engineering project lab in Bangalore, India that offers support for students to implement different types of final year projects.
SensorThings API Webinar - #1 of 4 - IntroductionSensorUp
This document introduces the OGC SensorThings API. It begins with an agenda that covers introducing IoT and sensor web, an overview of the SensorThings API and its benefits, and two case studies. It then provides background on the presenter and his company SensorUp, who developed the first implementation of the SensorThings API. The rest of the document discusses what the SensorThings API is, its benefits like being open, location-intelligent, and reducing time to market, and examples of its applications in environmental monitoring and disaster response. FAQs are addressed and two case studies are described in more detail.
This document introduces a new modular and scalable digital aerial imaging sensor called the ARCA of Iris. The ARCA uses a "Lego-like, plug & play" architecture of modular camera arrays to create a sensor system that is smaller, lighter, faster, and more economical than existing single-purpose sensors. This new sensor aims to address the challenges of rising costs in aerial imaging and the need for more flexible, multi-purpose sensor systems. The key components of the ARCA sensor include its modular camera array design, multispectral camera modules with no moving parts, and software that enables the arrays to capture imagery at up to one frame per second for assembly into orthorectified mosaics.
IRJET- Hand Movement Recognition for a Speech Impaired PersonIRJET Journal
This document describes a system to recognize hand gestures from a speech-impaired person and convert them to speech using a flex sensor glove and microcontroller. The system uses flex sensors attached to a glove to detect hand movements and gestures. The microcontroller matches the gestures to a database of templates and outputs the corresponding speech signal through a speaker. This allows speech-impaired individuals to communicate through natural hand gestures that are translated to audio speech in real-time. The system aims to help overcome communication barriers for those unable to speak.
The document describes the design of a smart watch based on e-paper. It discusses how the watch can display time as well as provide multiple functions through the use of e-paper, which has advantages of small size, light weight, low cost and power consumption. The watch uses an STM32 microprocessor connected to an acceleration sensor and Bluetooth module to receive information and display steps counted and other data on the e-paper for health monitoring. Future work may include adding other sensors and improving power efficiency.
The SDI Team reports from the ISC West conference, including industry trends, new technologies, and security market observations. Whether you were in attendance at the ISC West conference or not, please find our following takeaways to assist you with keeping your organization up to speed with industry developments.
Proof of concepts and use cases with IoT technologiesHeikki Ailisto
Set of proof of concept and use cases with internet of things technologies are presented with one sliders. In each case, the IoT challenge, result, benefits and use case example are given.
Iot based Patient Health Monitoring System.pptxharimaxwell0712
The main aim of IoT based patient health monitoring
system is to continuously track and monitor patient
Oxygen(SPO2), Pulse, Temperature and provide
information to doctors, nurses, and other caretakers it has
an inbuilt keypad with default functions that patients can
use it and can take help in any emergency. Health
Monitoring System can be operated and controlled either
by a mobile phone or manually from any location. This
system makes it easy to check on the status of the patient
and also provides data for doctors, patients, nurses, and
caretakers
Integrated smart sensors provide continuous process and diagnostic data to increase productivity, minimize downtime, and enable faster product changeovers. Smart sensors offer advanced diagnostic information to facilitate preventative maintenance and reduce unplanned downtime. Multiple sensor profiles stored in programmable logic controllers allow fast changeovers between products to increase throughput by 5-10%.
The multiple applications (Forest, Industrial, Home) sector being the backbone of the security system. Security systems which are being used now a day are not smart enough to provide real time notification after sensing the problem. This Project is very useful in industrial monitoring system, forest safety and controlling an application. The Processing Sensor analysis of PIR sensors, Fire, air, temp sensors based multiple sector Analysis industrial, human identification and Any Identification Indicate LCD Display and Web camera Based Any Problem Capture Stored Image Data base. In the present work a PIC Microcontroller based the remote irrigation system is developing for the multiple process. The microcontroller use to controlling and displaying the resultant sensor values LCD Display Identifying System.
These slides give brief description about Wireless Sensor Network and Different uses of WSN.
It also gives basic working principle of sensors and real life applications of wireless sensor network.
This also describes the structure of TinyOS and working principle of TinyOS
The team proposes to develop encryption solutions suitable for common microcontrollers used in IoT devices. Their goal is to create transparent encryption that is easy for makers to implement. Their initial idea is an open source encryption library, educating the public, and a website hosting the libraries. They discuss alternative ideas like encrypted chips or an encryption software optimized for medical devices. Their final MVP is a communication system design service to improve cybersecurity in medical devices, with the goal of transitioning to other applications.
IoT Standardization and Implementation ChallengesAhmed Banafa
The rapid evolution of the IoT market has caused an explosion in the number and variety of IoT solutions.
Additionally, large amounts of funding are being deployed at IoT startups.
Consequently, the focus of the industry has been on manufacturing and producing the right types of hardware to enable those solutions.
Smart Sensor Configuration for Security System Automation Using FPGAIJTET Journal
Abstract--- Automation in industrial control and monitoring systems plays a vital role in maintaining smooth work environment and handling perilous situation that may occur in work area. The available systems mostly use physical cables for signal transfer between the sensors and the control system. These systems have some significant problems such as the cable installation and maintenance costs associated with moving and replacement of cables during machinery maintenance, configuration and re-configuration. While the technological evolution of sensors is reflected in sensors getting smart, small, light weight, and cheapest, another key development is taking place in the sensors industry in the growth of wireless sensor use in industrial applications. The proposed wireless sensor-based controls provide industry attention in order to reduce costs, better power management and ease in maintenance. Wireless sensors have been successfully implemented in many industrial applications because of its performance, monitoring, security development and control the sensor system etc.
Heterointegration Coming of Age in 2015 - MEF 2015Paul Werbaneth
Heterogeneous integration, which involves integrating different device technologies such as CMOS and MEMS onto a single chip, is coming of age commercially. This integration allows for more sophisticated capabilities in smaller form factors by enabling multiple sensors, signal processing, and telemetry capabilities. Commercial examples of heterogeneous integration discussed in the document include Sony's stacked CMOS image sensors using TSVs, SiTime's MEMS oscillators integrated using epi-poly sealing, and various MEMS startups developing novel integration approaches like mCube's monolithic MEMS-on-CMOS using through-silicon vias. The document examines the definition and various approaches to heterogeneous integration in the microelectronics industry.
This document describes a system to automatically monitor and display the level of bagasse in a silo at a sugar factory. Currently, workers must visually check the level through glass on the silo, which can lead to errors. The proposed system uses an ultrasonic sensor to measure the bagasse level, and sends the measurement to an Arduino board connected to an LCD display. This allows the level to be digitally monitored without human involvement. A DC motor is also included to automatically open and close a door based on the measured level. The system aims to reduce human errors and provide an accurate method for determining the amount of bagasse available in the silo.
Berikut Kami Informasikan Produk Unggulan dari berbagai merk ternama yang sudah teruji kualitasnya
Untuk Anda yang membutuhkan Informasi Promo Terbaik dapat Menghubungi :
Ade Fazrin
Hp : 0853 1402 8282
Pib BB : 5db51ced
Susep Abdurohim
Hp : 0812 1089 5144
IoT Based Home Automation System_revised_27_06_2021.pptxCUInnovationTeam
This document describes the design and implementation of a home automation system using IoT. The system uses an Arduino microcontroller connected to various sensors to monitor temperature, gas, fire and motion. When thresholds are exceeded, the system triggers appliances like exhaust fans and alerts authorities via SMS. It allows remote monitoring and control of home appliances over WiFi. The objectives are to develop a low-cost home security, safety and energy saving system. Block diagrams and lists of equipment are provided. Advantages include easy access and control from anywhere, reduced human intervention, improved safety and efficiency.
IRJET- Fuel Theft Detection Location Tracing using Internet of ThingsIRJET Journal
This document summarizes a research paper on a fuel theft detection and location tracing system using Internet of Things. It discusses how the current framework has low accuracy in detecting fuel theft from vehicle tanks. The proposed system uses a flow sensor to calculate the amount of fuel filled and an ultrasonic sensor to continuously monitor the fuel level. If a sudden drop in fuel level is detected, the system will ring an alarm and notify the vehicle owner. It also allows fraudulent activities to be directly reported to authorities. The system stores historical data for future use.
Impartiality as per ISO /IEC 17025:2017 StandardMuhammadJazib15
This document provides basic guidelines for imparitallity requirement of ISO 17025. It defines in detial how it is met and wiudhwdih jdhsjdhwudjwkdbjwkdddddddddddkkkkkkkkkkkkkkkkkkkkkkkwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwwioiiiiiiiiiiiii uwwwwwwwwwwwwwwwwhe wiqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq gbbbbbbbbbbbbb owdjjjjjjjjjjjjjjjjjjjj widhi owqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqq uwdhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhwqiiiiiiiiiiiiiiiiiiiiiiiiiiiiw0pooooojjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjjj whhhhhhhhhhh wheeeeeeee wihieiiiiii wihe
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Sri Guru Hargobind Ji - Bandi Chor Guru.pdfBalvir Singh
Sri Guru Hargobind Ji (19 June 1595 - 3 March 1644) is revered as the Sixth Nanak.
• On 25 May 1606 Guru Arjan nominated his son Sri Hargobind Ji as his successor. Shortly
afterwards, Guru Arjan was arrested, tortured and killed by order of the Mogul Emperor
Jahangir.
• Guru Hargobind's succession ceremony took place on 24 June 1606. He was barely
eleven years old when he became 6th Guru.
• As ordered by Guru Arjan Dev Ji, he put on two swords, one indicated his spiritual
authority (PIRI) and the other, his temporal authority (MIRI). He thus for the first time
initiated military tradition in the Sikh faith to resist religious persecution, protect
people’s freedom and independence to practice religion by choice. He transformed
Sikhs to be Saints and Soldier.
• He had a long tenure as Guru, lasting 37 years, 9 months and 3 days
3rd International Conference on Artificial Intelligence Advances (AIAD 2024)GiselleginaGloria
3rd International Conference on Artificial Intelligence Advances (AIAD 2024) will act as a major forum for the presentation of innovative ideas, approaches, developments, and research projects in the area advanced Artificial Intelligence. It will also serve to facilitate the exchange of information between researchers and industry professionals to discuss the latest issues and advancement in the research area. Core areas of AI and advanced multi-disciplinary and its applications will be covered during the conferences.
Blood finder application project report (1).pdfKamal Acharya
Blood Finder is an emergency time app where a user can search for the blood banks as
well as the registered blood donors around Mumbai. This application also provide an
opportunity for the user of this application to become a registered donor for this user have
to enroll for the donor request from the application itself. If the admin wish to make user
a registered donor, with some of the formalities with the organization it can be done.
Specialization of this application is that the user will not have to register on sign-in for
searching the blood banks and blood donors it can be just done by installing the
application to the mobile.
The purpose of making this application is to save the user’s time for searching blood of
needed blood group during the time of the emergency.
This is an android application developed in Java and XML with the connectivity of
SQLite database. This application will provide most of basic functionality required for an
emergency time application. All the details of Blood banks and Blood donors are stored
in the database i.e. SQLite.
This application allowed the user to get all the information regarding blood banks and
blood donors such as Name, Number, Address, Blood Group, rather than searching it on
the different websites and wasting the precious time. This application is effective and
user friendly.
ELS: 2.4.1 POWER ELECTRONICS Course objectives: This course will enable stude...Kuvempu University
Introduction - Applications of Power Electronics, Power Semiconductor Devices, Control Characteristics of Power Devices, types of Power Electronic Circuits. Power Transistors: Power BJTs: Steady state characteristics. Power MOSFETs: device operation, switching characteristics, IGBTs: device operation, output and transfer characteristics.
Thyristors - Introduction, Principle of Operation of SCR, Static Anode- Cathode Characteristics of SCR, Two transistor model of SCR, Gate Characteristics of SCR, Turn-ON Methods, Turn-OFF Mechanism, Turn-OFF Methods: Natural and Forced Commutation – Class A and Class B types, Gate Trigger Circuit: Resistance Firing Circuit, Resistance capacitance firing circuit.
Particle Swarm Optimization–Long Short-Term Memory based Channel Estimation w...IJCNCJournal
Paper Title
Particle Swarm Optimization–Long Short-Term Memory based Channel Estimation with Hybrid Beam Forming Power Transfer in WSN-IoT Applications
Authors
Reginald Jude Sixtus J and Tamilarasi Muthu, Puducherry Technological University, India
Abstract
Non-Orthogonal Multiple Access (NOMA) helps to overcome various difficulties in future technology wireless communications. NOMA, when utilized with millimeter wave multiple-input multiple-output (MIMO) systems, channel estimation becomes extremely difficult. For reaping the benefits of the NOMA and mm-Wave combination, effective channel estimation is required. In this paper, we propose an enhanced particle swarm optimization based long short-term memory estimator network (PSOLSTMEstNet), which is a neural network model that can be employed to forecast the bandwidth required in the mm-Wave MIMO network. The prime advantage of the LSTM is that it has the capability of dynamically adapting to the functioning pattern of fluctuating channel state. The LSTM stage with adaptive coding and modulation enhances the BER.PSO algorithm is employed to optimize input weights of LSTM network. The modified algorithm splits the power by channel condition of every single user. Participants will be first sorted into distinct groups depending upon respective channel conditions, using a hybrid beamforming approach. The network characteristics are fine-estimated using PSO-LSTMEstNet after a rough approximation of channels parameters derived from the received data.
Keywords
Signal to Noise Ratio (SNR), Bit Error Rate (BER), mm-Wave, MIMO, NOMA, deep learning, optimization.
Volume URL: https://airccse.org/journal/ijc2022.html
Abstract URL:https://aircconline.com/abstract/ijcnc/v14n5/14522cnc05.html
Pdf URL: https://aircconline.com/ijcnc/V14N5/14522cnc05.pdf
#scopuspublication #scopusindexed #callforpapers #researchpapers #cfp #researchers #phdstudent #researchScholar #journalpaper #submission #journalsubmission #WBAN #requirements #tailoredtreatment #MACstrategy #enhancedefficiency #protrcal #computing #analysis #wirelessbodyareanetworks #wirelessnetworks
#adhocnetwork #VANETs #OLSRrouting #routing #MPR #nderesidualenergy #korea #cognitiveradionetworks #radionetworks #rendezvoussequence
Here's where you can reach us : ijcnc@airccse.org or ijcnc@aircconline.com
Digital Twins Computer Networking Paper Presentation.pptxaryanpankaj78
A Digital Twin in computer networking is a virtual representation of a physical network, used to simulate, analyze, and optimize network performance and reliability. It leverages real-time data to enhance network management, predict issues, and improve decision-making processes.
Open Channel Flow: fluid flow with a free surfaceIndrajeet sahu
Open Channel Flow: This topic focuses on fluid flow with a free surface, such as in rivers, canals, and drainage ditches. Key concepts include the classification of flow types (steady vs. unsteady, uniform vs. non-uniform), hydraulic radius, flow resistance, Manning's equation, critical flow conditions, and energy and momentum principles. It also covers flow measurement techniques, gradually varied flow analysis, and the design of open channels. Understanding these principles is vital for effective water resource management and engineering applications.
We have designed & manufacture the Lubi Valves LBF series type of Butterfly Valves for General Utility Water applications as well as for HVAC applications.
2. CONTENT
• INTRODUCTION
• FUTURE OF SENSORS
• WHY IS THE DEMAND FOR SMART SENSORS GROWING?
• THE BASIS OF NEW APPLICATIONS FOR SENSORS
• THE MOST IMPORTANT DEVELOPMENT OBJECTIVES FOR SENSOR
TECHNOLOGY
• SENSOR FUSION IN A PERSON
• EFFICIENCY AND SUSTAINABILITY
• EXPERTISE LIES WITH THE EXPERT
• HOW WILL SENSORS BE USED IN THE FUTURE?
• THE INNOVATION WHEEL ONLY TURNS MORE QUICKLY
• CONCLUSION
3. INTRODUCTION
• IEEE sensors 2022 is intended to provide a forum for
research scientists, engineers, and practitioners throughout
the world to present their latest research findings ideas, and
applications in the area of sensors and sensing technologies.
4. FUTURE OF SENSORS
• Sensor proliferation and sensor fusion will continue to
accelerate as security within the IoT improves and makes it
safer to transmit important data
• This will enhance the remote operating capabilities.
• While that is happening, the application of sensor to
consumer devices will drive down cost and improve
performance.
5.
6.
7. WHY IS THE DEMAND FOR SMART SENSORS
GROWING?
• Our need for new knowledge is growing and this knowledge
helps provide you with more options for making decisions.
• Reacting faster allows processes to become more effective
and more efficient. So, you achieve more with less effort.
• We always strive toward more efficiency.
• The demand for smart sensors continues to grow because we
increasingly want to measure more.
8. THE BASIS OF NEW APPLICATIONS FOR SENSORS
• Innovation occurs increasingly quickly partly due to the
arrival of “sensor fusion”. This is when you integrate
different sensors into a single compact sensor application.
• The combination of two sensor technologies provides more
new information to make applications more intelligent and
more efficient. This is “sensor data fusion”.
9. THE MOST IMPORTANT DEVELOPMENT
OBJECTIVES FOR SENSOR TECHNOLOGY
• Sensor technology developers, suppliers, and customers all
have different interests that you must consider. For example,
costs, quality, and lead time.
• For example, this influences the decision to accept lesser
quality because it is cheaper and may be deliverable the next
day.
10. SENSOR FUSION IN A PERSON
• A machine will then become self-learning. So, artificial
intelligence with deep learning algorithms is the future.”
• In the future, sensors will also be able to work autonomously
in the same manner.
11. EFFICIENCY AND SUSTAINABILITY
• The balance between sustainability and economic gain is
always present in an innovation process. You can consider
making a large agricultural machine heavy and extremely
sustainable.
• Of course, the cost will be more fuel (i.e. money) to convey it
across the ground compared to a lighter machine.
• If you make the “same” agricultural machine “with lower
quality”, you harm the environment more. However, the
production costs are lower.
12. EXPERTISE LIES WITH THE EXPERT
• Everyone will know about the existence of sensors in the future.
But, the understanding of what magnitudes these will measure is
diminishing steadily.
• A party, such as Sentech, adds value with respect to this point
because our sensor experts have the necessary underlying
expertise.
• The customer is assisted in choosing the right sensor technology
for their needs and how to integrate it properly.
• Expertise will soon be lacking even more, which will create odd
situations, for example, someone trying to measure a length using
a pressure sensor.
13. HOW WILL SENSORS BE USED IN THE
FUTURE?
You need all of your body's senses to do so. In the
future, sensors will also be able to work autonomously in
the same manner. A machine will then become self-learning.
So, artificial intelligence with deep learning algorithms is the
future.
Balluf IP69K sensor
15. • In the future, you will see that sensors provide more
than one advantage. You will see a combination of
advantages that are focused on the area of application.
The concept “this gain” will be greater for everyone
and simultaneously pressure the margin on products
and services
16. CONCLUSION
• As sensor applications continue to grow, so does the demand for
sensors. One thing to note is that a lack of reliable sensors would
cripple most automation industries. So producing high-quality sensors
is essential, and with the increase in competition among
manufacturers, sensors are becoming cheaper than ever before.
• In the future, sensors will also be able to work autonomously in the
same manner. A machine will then become self-learning. So, artificial
intelligence with deep learning algorithms is the future.”