This document summarizes the specifications and features of the ELM327 WiFi OBD2 auto scanner adapter. It can connect to iOS and other smartphone systems over WiFi. Key specs include an internal antenna, 50 foot range, 0.75 watt power consumption, and support for various auto protocols. It also lists common vehicle data parameters that can be monitored, and includes a CD drive, websites and social media links for the product.
Home Automation System using ZigBee and PandaBoard as a Gateway (HAS-ZP)idescitation
Today’s homes have as many wires as the number of devices to control. Home
automation using ZigBee and PandaBoard as a gateway does away with the need for
separate wires and even remotes. The wireless home area network doesn’t require line-of-
sight communication. The HAS-ZP is a wireless home automation system that can be
implemented in existing home environments, without any changes in the infrastructure.
Home Automation lets the user control the home appliances from his or her smart-phone or
laptop. The assigned actions can happen depending on time or other sensor readings such as
light, temperature or sound from any connected device in the Home Automation network.
With the help of PandaBoard, currently working as gateway, we can control, command,
operate and observe the end devices. Here we are considering end devices like fan, bulb, TV,
Music System, doors, windows etc. with the single gateway, the system can control entire
home irrespective of number of rooms or boundaries where each room will be connected
with single receiver.
The document discusses how networks must change to adapt to shifting traffic patterns, limited visibility and control, and network latency. It notes that by 2015, 50% of CIOs expect to operate in the cloud. The network evolution involves moving to a model with direct internet access from branches for lower latency and cost, using technologies like WAAS, PfR, AVC and MPLS to provide transport independence, intelligent path control and secure connectivity. This integrated approach aims to optimize applications across multiple access types including wireless. The network must also adapt to growing numbers of devices and traffic speeds increasing from Mbps to Gbps and beyond. Cisco provides a range of solutions from routers and switches to wireless controllers and management platforms to allow for a unified
The document provides 7 steps for easily programming a POSITAL encoder using the UBIFAST Configuration Tool without any additional software or installations. The steps include connecting the encoder hardware, connecting a WiFi enabled device to the encoder's hotspot, entering incremental parameters like pulses per revolution in a web browser, verifying and saving the parameters, and receiving confirmation that programming was successful.
ESP-Now is a protocol developed by Espressif that enables wireless devices to communicate in a peer-to-peer and connectionless manner without using Wi-Fi. It requires pairing between devices first, then allows for persistent and encrypted connections of up to 250 bytes. It is ideal for applications like smart lights and sensors. Some limitations include a lack of broadcast support and limited numbers of encrypted peers.
The document discusses the ZigBee technology. It provides an overview of ZigBee, including its key characteristics such as low power consumption, low cost, high density of nodes, and simple protocol. It also discusses ZigBee's target markets such as home automation, industrial control, and healthcare. The document compares ZigBee to Bluetooth and power line communication technologies.
ZigBee is a wireless technology standard created for low-power wireless networks. It uses small, low-power digital radios to transmit data over short distances. ZigBee networks are commonly used in wireless control and monitoring applications that require long battery life, such as home automation and industrial control systems. ZigBee operates on open global standards and has low manufacturing costs, making it suitable for a wide range of wireless control and monitoring applications.
Zigbee is a wireless networking standard used for low-power digital radios in personal area networks. It uses small, low-power digital radios designed for use in wireless sensor and control networks. Zigbee devices include coordinators, routers, and end devices. Coordinators manage the network, routers relay data, and end devices can only communicate with their parent node. Zigbee uses mesh networking topologies to allow for redundancy and multiple communication paths. Its software architecture is built on top of the IEEE 802.15.4 standard and includes network, application, and device object layers. Zigbee networks are initialized by coordinators searching for channels and assigning PAN IDs to start the network for other devices
This document summarizes the specifications and features of the ELM327 WiFi OBD2 auto scanner adapter. It can connect to iOS and other smartphone systems over WiFi. Key specs include an internal antenna, 50 foot range, 0.75 watt power consumption, and support for various auto protocols. It also lists common vehicle data parameters that can be monitored, and includes a CD drive, websites and social media links for the product.
Home Automation System using ZigBee and PandaBoard as a Gateway (HAS-ZP)idescitation
Today’s homes have as many wires as the number of devices to control. Home
automation using ZigBee and PandaBoard as a gateway does away with the need for
separate wires and even remotes. The wireless home area network doesn’t require line-of-
sight communication. The HAS-ZP is a wireless home automation system that can be
implemented in existing home environments, without any changes in the infrastructure.
Home Automation lets the user control the home appliances from his or her smart-phone or
laptop. The assigned actions can happen depending on time or other sensor readings such as
light, temperature or sound from any connected device in the Home Automation network.
With the help of PandaBoard, currently working as gateway, we can control, command,
operate and observe the end devices. Here we are considering end devices like fan, bulb, TV,
Music System, doors, windows etc. with the single gateway, the system can control entire
home irrespective of number of rooms or boundaries where each room will be connected
with single receiver.
The document discusses how networks must change to adapt to shifting traffic patterns, limited visibility and control, and network latency. It notes that by 2015, 50% of CIOs expect to operate in the cloud. The network evolution involves moving to a model with direct internet access from branches for lower latency and cost, using technologies like WAAS, PfR, AVC and MPLS to provide transport independence, intelligent path control and secure connectivity. This integrated approach aims to optimize applications across multiple access types including wireless. The network must also adapt to growing numbers of devices and traffic speeds increasing from Mbps to Gbps and beyond. Cisco provides a range of solutions from routers and switches to wireless controllers and management platforms to allow for a unified
The document provides 7 steps for easily programming a POSITAL encoder using the UBIFAST Configuration Tool without any additional software or installations. The steps include connecting the encoder hardware, connecting a WiFi enabled device to the encoder's hotspot, entering incremental parameters like pulses per revolution in a web browser, verifying and saving the parameters, and receiving confirmation that programming was successful.
ESP-Now is a protocol developed by Espressif that enables wireless devices to communicate in a peer-to-peer and connectionless manner without using Wi-Fi. It requires pairing between devices first, then allows for persistent and encrypted connections of up to 250 bytes. It is ideal for applications like smart lights and sensors. Some limitations include a lack of broadcast support and limited numbers of encrypted peers.
The document discusses the ZigBee technology. It provides an overview of ZigBee, including its key characteristics such as low power consumption, low cost, high density of nodes, and simple protocol. It also discusses ZigBee's target markets such as home automation, industrial control, and healthcare. The document compares ZigBee to Bluetooth and power line communication technologies.
ZigBee is a wireless technology standard created for low-power wireless networks. It uses small, low-power digital radios to transmit data over short distances. ZigBee networks are commonly used in wireless control and monitoring applications that require long battery life, such as home automation and industrial control systems. ZigBee operates on open global standards and has low manufacturing costs, making it suitable for a wide range of wireless control and monitoring applications.
Zigbee is a wireless networking standard used for low-power digital radios in personal area networks. It uses small, low-power digital radios designed for use in wireless sensor and control networks. Zigbee devices include coordinators, routers, and end devices. Coordinators manage the network, routers relay data, and end devices can only communicate with their parent node. Zigbee uses mesh networking topologies to allow for redundancy and multiple communication paths. Its software architecture is built on top of the IEEE 802.15.4 standard and includes network, application, and device object layers. Zigbee networks are initialized by coordinators searching for channels and assigning PAN IDs to start the network for other devices
This document summarizes the specifications of the hAP small home access point. The hAP has dual-chain 2.4GHz wireless, 650MHz CPU, 64MB RAM, and 5 Ethernet ports with passive PoE output on port 5. It is small, wall-mountable, and can be powered by power adapter or PoE injector.
Wireless Microcontroller (IEEE802.15.4 and ZigBee): JN5139Premier Farnell
The document provides an overview of the JN5139 wireless microcontroller from Jennic Ltd. It has an IEEE 802.15.4 compliant transceiver and supports ZigBee applications. It features a 32-bit RISC processor, various peripherals including ADCs and timers, and low power characteristics making it suitable for wireless sensor networks and other applications. The document describes the microcontroller features and architecture, transceiver details, and JenNet protocol stack.
This document provides an overview of Zigbee, a wireless protocol that allows low-cost devices to transmit small amounts of data. It discusses the history and development of Zigbee, why it was needed as an alternative to WiFi and Bluetooth, its static architecture and device types. The document then explains how Zigbee networks and mesh networking work and describes applications of Zigbee for home automation, remote control and telecom services. It highlights advantages such as long battery life, low complexity and cost, and flexibility through mesh networking.
Best practice network deployments make use of Taps to route, aggregate, and regenerate traffic that is then sent to these tools to make use of their full capabilities. In addition, bypass Taps are used to ensure a failed monitoring appliance doesn’t bring your network traffic to a standstill. Taps form the foundation for implementing an intelligent access and monitoring infrastructure.
This seminar report provides an overview of ZigBee technology. It defines ZigBee as a wireless networking standard intended for low-power devices. The report outlines ZigBee's key characteristics including low cost, low power consumption, mesh networking topology, and built-in security. It also describes ZigBee's protocol stack and compares it to other wireless technologies like Bluetooth and Wi-Fi. Common applications of ZigBee technology include home automation, wireless sensor networks, and industrial control.
1. The document outlines 10 steps to troubleshoot wireless network connectivity issues. The steps include checking wired and wireless connections, verifying wireless adapter and router settings, checking TCP/IP configurations, using ping to test connectivity, looking for issues with wireless standards, security mismatches, RADIUS authentication, 802.1X login problems, and intermittent connectivity issues.
2. Step 1 involves checking Ethernet cables and link status lights to ensure wired connections are properly connected. Step 2 is to verify the wireless adapter is turned on and in wireless mode. Step 3 is to check the router's wireless network name and settings.
3. Later steps check TCP/IP settings, use ping to test connectivity, look for wireless standard or security
We’re at Embedded World this week introducing our new multiprotocol wireless system-on-chip (SoC) devices, bringing simplicity and connectivity to Internet of Things (IoT) applications. Based on our energy-friendly Gecko technology and integrated radio, these Wireless Gecko SoCs aren’t holding anything back and represent the next step in low-power wireless connectivity.
IP NETWORK BASED HOME AUTOMATION SYSTEM USING AVR MICROCONTROLLER Adeel Ahmed
An automation system based on IP networks.
Assigning individual IP addresses to:
Lights
Fans
Air conditioners
Accessing these devices using wired and wireless connections
Developing the software and hardware infrastructure necessary for this system
ZigBee is a wireless technology designed for low-power, short-range communication in personal area networks. It operates on various frequency bands and defines communication protocols for sensor and control networks. The document discusses ZigBee's architecture, protocols, topologies, algorithms and applications in monitoring and control. It compares ZigBee to other wireless standards like Bluetooth and outlines its advantages like low power usage, large network capacity and ease of deployment.
Choosing Between a Wireless Module and a Wireless SoCSilicon Labs
So, you want to save money by using a system-on-a-chip (SoC)? If you're trying to decide between using a wireless SoC or a wireless module, be sure you know the tradeoffs.
Learn more here: http://bit.ly/1RxcupG
The document discusses a ZyXEL NXC WLAN controller that can help solve common worries when deploying a Wi-Fi network such as unstable connections, slow speeds, and difficulties with expansion. The controller allows for zero-touch deployment of access points, automatic healing of failed access points, and optimization of client connections to avoid congestion. It also enables deployment of access points without wired Ethernet connections through its ZyMESH functionality.
This document summarizes a wireless EEG cap system that was developed to allow for continuous EEG recording without the use of electrolyte paste. The system uses a 70 channel EEG cap with brain sensors connected to a PIC microcontroller that filters and digitizes the EEG signals. The digital EEG data is then transmitted via Zigbee modules to a PC. This wireless system eliminates the limitations of traditional wired EEG systems, which require electrolyte paste that dries out after a few hours. The wireless EEG cap system allows for continuous EEG monitoring and transfers data between the patient and doctor without any loss.
Silicon Labs' Vice President of Software, Skip Ashton, evaluated CPU loading at ARM TechCon.
Abstract: The growth of devices connected to each other and the internet and the growth of wireless and security protocols means these embedded ARM processors are doing more and more processing. While developers and designers have focused on energy efficiency, evaluation of processor loading can also reveal design improvements and power savings.
Learn more about Silicon Labs products: http://bit.ly/1QKDOF4
Using IEEE's Zigbee Protocol to design a low power, noise efficient node for home automation. The presentation provides some of the key ingredients and working modes for the Zigbee Protocol. Many companies like (DiGi) built smart zigbee radios (commercially named: XBee) based on these protocol stacks, which now help reshaping wireless sensor networking and low power consumer electronics integration .
Developing Accessories for the Apple HomeKit EcosystemSilicon Labs
Apple HomeKit is a framework for communicating with and controlling connected home applications. Dozens of devices can be built with HomeKit, but designing these products for the Apple protocol and navigating the approval process can be a daunting process. Learn how Silicon Labs can help dramatically reduce this complexity and mitigate risks.
On-demand webinar: http://bit.ly/2hyikkx
WiMER2 is the wireless transmitter designed for Fowler/Sylvac users. It collects readings from Fowler/Sylvac instruments with RS232 outputs and transmits data wirelessly via Bluetooth Low Energy to iPhone/iPad/Android/PC. WiMER2 also powers the connected instrument. No external power supply is needed.
This document proposes an IoT-based home automation system that allows users to control home appliances like lights, fans, and door locks remotely using a smartphone or computer over the internet. The system uses an Arduino microcontroller as the server connected to appliances via relays. Users can access the system through a web interface to turn devices on and off from anywhere. The goal is to reduce energy wastage by remote control of appliances through wireless communication protocols like WiFi between user devices and the home network gateway.
This document discusses home automation using an Android application. It describes how devices like lights and appliances can be controlled wirelessly via Bluetooth using an Arduino Uno microcontroller board connected to an HC-05 Bluetooth module. An L293D driver circuit is used to control motors and other loads. The system allows disabled or physically challenged people to remotely control home devices from their mobile phone for smart home applications at low cost.
IRJET- Wi-Fi Control First Person View Robot (FPV)IRJET Journal
1) The document describes a Wi-Fi controlled robot with a camera that can be remotely operated and transmit real-time video.
2) The robot uses an Arduino Uno microcontroller connected to an ESP8266 Wi-Fi module to control DC motors and receive commands from a mobile app or web interface over Wi-Fi.
3) The robot is designed to be helpful for monitoring and surveillance purposes by allowing the camera to automatically scan areas and transmit images remotely.
This document summarizes the specifications of the hAP small home access point. The hAP has dual-chain 2.4GHz wireless, 650MHz CPU, 64MB RAM, and 5 Ethernet ports with passive PoE output on port 5. It is small, wall-mountable, and can be powered by power adapter or PoE injector.
Wireless Microcontroller (IEEE802.15.4 and ZigBee): JN5139Premier Farnell
The document provides an overview of the JN5139 wireless microcontroller from Jennic Ltd. It has an IEEE 802.15.4 compliant transceiver and supports ZigBee applications. It features a 32-bit RISC processor, various peripherals including ADCs and timers, and low power characteristics making it suitable for wireless sensor networks and other applications. The document describes the microcontroller features and architecture, transceiver details, and JenNet protocol stack.
This document provides an overview of Zigbee, a wireless protocol that allows low-cost devices to transmit small amounts of data. It discusses the history and development of Zigbee, why it was needed as an alternative to WiFi and Bluetooth, its static architecture and device types. The document then explains how Zigbee networks and mesh networking work and describes applications of Zigbee for home automation, remote control and telecom services. It highlights advantages such as long battery life, low complexity and cost, and flexibility through mesh networking.
Best practice network deployments make use of Taps to route, aggregate, and regenerate traffic that is then sent to these tools to make use of their full capabilities. In addition, bypass Taps are used to ensure a failed monitoring appliance doesn’t bring your network traffic to a standstill. Taps form the foundation for implementing an intelligent access and monitoring infrastructure.
This seminar report provides an overview of ZigBee technology. It defines ZigBee as a wireless networking standard intended for low-power devices. The report outlines ZigBee's key characteristics including low cost, low power consumption, mesh networking topology, and built-in security. It also describes ZigBee's protocol stack and compares it to other wireless technologies like Bluetooth and Wi-Fi. Common applications of ZigBee technology include home automation, wireless sensor networks, and industrial control.
1. The document outlines 10 steps to troubleshoot wireless network connectivity issues. The steps include checking wired and wireless connections, verifying wireless adapter and router settings, checking TCP/IP configurations, using ping to test connectivity, looking for issues with wireless standards, security mismatches, RADIUS authentication, 802.1X login problems, and intermittent connectivity issues.
2. Step 1 involves checking Ethernet cables and link status lights to ensure wired connections are properly connected. Step 2 is to verify the wireless adapter is turned on and in wireless mode. Step 3 is to check the router's wireless network name and settings.
3. Later steps check TCP/IP settings, use ping to test connectivity, look for wireless standard or security
We’re at Embedded World this week introducing our new multiprotocol wireless system-on-chip (SoC) devices, bringing simplicity and connectivity to Internet of Things (IoT) applications. Based on our energy-friendly Gecko technology and integrated radio, these Wireless Gecko SoCs aren’t holding anything back and represent the next step in low-power wireless connectivity.
IP NETWORK BASED HOME AUTOMATION SYSTEM USING AVR MICROCONTROLLER Adeel Ahmed
An automation system based on IP networks.
Assigning individual IP addresses to:
Lights
Fans
Air conditioners
Accessing these devices using wired and wireless connections
Developing the software and hardware infrastructure necessary for this system
ZigBee is a wireless technology designed for low-power, short-range communication in personal area networks. It operates on various frequency bands and defines communication protocols for sensor and control networks. The document discusses ZigBee's architecture, protocols, topologies, algorithms and applications in monitoring and control. It compares ZigBee to other wireless standards like Bluetooth and outlines its advantages like low power usage, large network capacity and ease of deployment.
Choosing Between a Wireless Module and a Wireless SoCSilicon Labs
So, you want to save money by using a system-on-a-chip (SoC)? If you're trying to decide between using a wireless SoC or a wireless module, be sure you know the tradeoffs.
Learn more here: http://bit.ly/1RxcupG
The document discusses a ZyXEL NXC WLAN controller that can help solve common worries when deploying a Wi-Fi network such as unstable connections, slow speeds, and difficulties with expansion. The controller allows for zero-touch deployment of access points, automatic healing of failed access points, and optimization of client connections to avoid congestion. It also enables deployment of access points without wired Ethernet connections through its ZyMESH functionality.
This document summarizes a wireless EEG cap system that was developed to allow for continuous EEG recording without the use of electrolyte paste. The system uses a 70 channel EEG cap with brain sensors connected to a PIC microcontroller that filters and digitizes the EEG signals. The digital EEG data is then transmitted via Zigbee modules to a PC. This wireless system eliminates the limitations of traditional wired EEG systems, which require electrolyte paste that dries out after a few hours. The wireless EEG cap system allows for continuous EEG monitoring and transfers data between the patient and doctor without any loss.
Silicon Labs' Vice President of Software, Skip Ashton, evaluated CPU loading at ARM TechCon.
Abstract: The growth of devices connected to each other and the internet and the growth of wireless and security protocols means these embedded ARM processors are doing more and more processing. While developers and designers have focused on energy efficiency, evaluation of processor loading can also reveal design improvements and power savings.
Learn more about Silicon Labs products: http://bit.ly/1QKDOF4
Using IEEE's Zigbee Protocol to design a low power, noise efficient node for home automation. The presentation provides some of the key ingredients and working modes for the Zigbee Protocol. Many companies like (DiGi) built smart zigbee radios (commercially named: XBee) based on these protocol stacks, which now help reshaping wireless sensor networking and low power consumer electronics integration .
Developing Accessories for the Apple HomeKit EcosystemSilicon Labs
Apple HomeKit is a framework for communicating with and controlling connected home applications. Dozens of devices can be built with HomeKit, but designing these products for the Apple protocol and navigating the approval process can be a daunting process. Learn how Silicon Labs can help dramatically reduce this complexity and mitigate risks.
On-demand webinar: http://bit.ly/2hyikkx
WiMER2 is the wireless transmitter designed for Fowler/Sylvac users. It collects readings from Fowler/Sylvac instruments with RS232 outputs and transmits data wirelessly via Bluetooth Low Energy to iPhone/iPad/Android/PC. WiMER2 also powers the connected instrument. No external power supply is needed.
This document proposes an IoT-based home automation system that allows users to control home appliances like lights, fans, and door locks remotely using a smartphone or computer over the internet. The system uses an Arduino microcontroller as the server connected to appliances via relays. Users can access the system through a web interface to turn devices on and off from anywhere. The goal is to reduce energy wastage by remote control of appliances through wireless communication protocols like WiFi between user devices and the home network gateway.
This document discusses home automation using an Android application. It describes how devices like lights and appliances can be controlled wirelessly via Bluetooth using an Arduino Uno microcontroller board connected to an HC-05 Bluetooth module. An L293D driver circuit is used to control motors and other loads. The system allows disabled or physically challenged people to remotely control home devices from their mobile phone for smart home applications at low cost.
IRJET- Wi-Fi Control First Person View Robot (FPV)IRJET Journal
1) The document describes a Wi-Fi controlled robot with a camera that can be remotely operated and transmit real-time video.
2) The robot uses an Arduino Uno microcontroller connected to an ESP8266 Wi-Fi module to control DC motors and receive commands from a mobile app or web interface over Wi-Fi.
3) The robot is designed to be helpful for monitoring and surveillance purposes by allowing the camera to automatically scan areas and transmit images remotely.
Home Automation Using Arduino Uno and HC-05Vidhi Shah
Controlling the DC motor (as fan) and Light bulb through HC-05 bluetooth module using the bluetooth terminal app from available on play store. The report attached herewith have a detailed description of the Circuit and the code. Interested ones can do further editings also:)
The document discusses hardware requirements for a project, focusing on the Node MCU and related components. It provides an overview of the ESP-12E Wi-Fi module and Node MCU board, describing their features, pinouts, and applications. It also discusses the power supply requirements, including a step-down transformer, rectifier, filter capacitor, and 7805 voltage regulator. Finally, it briefly introduces the DHT-11 temperature and humidity sensor.
This document describes a voice-controlled smart home automation system using Google Assistant. NodeMCU (ESP8266) is used to control relays connected to home appliances like lights and fans. IFTTT connects the Google Assistant to the NodeMCU to allow voice commands to turn appliances on and off. Sensors like a gas detector and temperature sensor monitor the home for safety. The system provides convenience for elderly or disabled people to control their home using voice commands through Google Assistant.
This starter kit contains hardware and software for developing applications using Wi-Fi connectivity on the Renesas RX62N microcontroller. The kit includes an RX62N microcontroller board, a companion card with the Redpine Connect-io-n RS9110-N-11-22 Wi-Fi module mounted and integrated with the RX62N over SPI. The kit provides everything needed to begin development, including demo applications, driver code, and development tools to interface with the Wi-Fi module and evaluate its features.
This document discusses securely updating field programmable gate arrays (FPGAs) remotely to allow hardware to be updated over-the-air without a service technician. It describes building a crypto-component and static part for the FPGA that includes the crypto-component, configuration access port for reconfiguration, a communication component, and controller. Preliminary results show the resource overhead of the reconfigurable fabric.
The document provides an overview and reference manual for the Basys 3 FPGA board from Digilent. Key points:
- The Basys 3 board features an Artix-7 FPGA, 16 user switches and LEDs, pushbuttons, 7-segment display, VGA output, USB and JTAG ports for programming.
- The FPGA can be programmed via the onboard JTAG circuitry using a USB cable, from a file on a SPI flash memory chip, or from a USB memory stick connected to the board.
- The board includes power supplies to support the FPGA and peripherals, which can be powered via USB or an external power source up to 5.5V.
This document discusses building an "Internet of Trains" project using LEGO trains controlled over WiFi. It describes connecting Raspberry Pis to LEGO trains using infrared transmitters and switches. An Android/web application allows controlling the trains remotely. Challenges included coordinating the distributed system, which the authors addressed using Scala and Akka actors for remote communication between devices. Performance tests showed remote actors had faster response times than HTTP for this real-time control application.
An FPGA is described as a reconfigurable integrated circuit containing an array of logic blocks and programmable interconnects. The document discusses an FPGA's architecture, including configurable logic blocks and routing resources. It also provides VHDL code for an 8-bit ALU implementation on an FPGA, including a process to handle data display on an LCD screen.
This document describes an IOT-based industrial automation system that allows users to control industrial appliances and machines over the internet. An Arduino microcontroller processes user commands received via a WiFi module. The microcontroller then controls loads and a motor via relays. The system state is displayed on an LCD screen. The goal is to efficiently automate industry using an online GUI for remote control of devices. Key hardware components include a power supply, Arduino, WiFi module, relay driver, relays, and LCD display. The system provides efficient remote control of industry appliances and machines over the internet using IOT.
Final presentation [dissertation project], 20192 esv0002MOHAMMED FURQHAN
This document presents a dissertation project on implementing a real-time data acquisition system on an FPGA. The project was presented by Mohammed Furqhan and guided by Mr. Subramanyam Vinayaka Babu. The project involves interfacing an LCD with a Spartan-6 FPGA for real-time data display from an ADC and DAC through sensors. A LabVIEW interface will also be created for data logging and acquisition. The document outlines the objectives, components used including an LCD, ADC, DAC, and FPGA, and provides information on future work and conclusions.
Speed control of single phase induction motor by android bluetoothIRJET Journal
1. The document describes a system to control the speed of a single-phase induction motor remotely using an Android device over Bluetooth.
2. An Android application connects to a Bluetooth modem interfaced with an AVR microcontroller to send speed control commands.
3. The microcontroller decodes the signals and sends them to an opto-coupler to activate the TRIAC firing angle control circuit, changing the motor speed.
IRJET - IoT based Home Automation System through Voice Control using Google A...IRJET Journal
This document describes an IoT-based home automation system that allows control of electrical appliances using voice commands through a Google Assistant app. The system uses an Arduino microcontroller connected to ESP8266 WiFi modules and relays to control appliances. Users can control lights, fans, and other devices remotely using the Blynk app on their smartphone, which sends commands to the Arduino via ESP8266. This provides convenience and saves energy by automating appliance control. The system was tested successfully to control loads by voice commands through the Blynk and Google Assistant apps.
The document discusses Electric Imp's solution for adding connectivity to products in a cost-effective way. It presents Electric Imp as providing an integrated platform that combines the necessary hardware, software, cloud services and tools into their imp module and cloud platform. This simplifies an otherwise expensive and time-consuming process of building out connectivity infrastructure that can take over a year and significant resources. Electric Imp aims to remove these barriers so companies can focus on their core product development.
IRJET- IoT based Advanced Security Intelligence System using PythonIRJET Journal
This document describes an Internet of Things (IoT) based advanced security intelligence system using Python. It discusses using a Raspberry Pi computer with a camera module to create a cost-effective home security camera system. A Python script enables the Pi's camera to detect motion and save images. It then directs the Pi to send email notifications whenever motion is detected. The system allows creating a low-cost yet efficient security camera solution.
Three-phase ac motors have been the workhorse of industry since the earliest days of electrical engineering. They are reliable, efficient, cost-effective and need little or no maintenance. In addition, ac motors such as induction and reluctance motors need no electrical connection to the rotor, so can easily be made flameproof for use in hazardous environments such as in mines.
In order to provide proper speed control of an ac motor, it is necessary to supply the motor with a three phase supply of which both the voltage and the frequency can be varied. Such a supply will create a variable speed rotating field in the stator that will allow the rotor to rotate at the required speed with low slip. This ac motor drive can efficiently provide full torque from zero speed to full speed, can overspeed if necessary, and can, by changing phase rotation, easily provide bi-directional operation of the motor. A drive with these characteristics is known as a PWM (Pulse Width Modulated) motor drive.
Drives and motors are an integral part of industrial equipment from packaging,robotics, computer numerical control (CNC), machine tools, industrial pumps,and fans. Designing next-generation drive systems to lower operating costs requires complex control algorithms at very low latencies as well as a flexibleplatform to support changing needs and the ability to design multiple-axis systems.
Traditional drive systems based on ASICs, digital signal processors (DSPs), and microcontroller units lack the performance and flexibility to address these needs. Altera’s family of FPGAs provides a scalable platform that can be used to offload control algorithm elements in hardware. You may also integrate the whole drive system with industry-proven processor architectures while supporting multipletypes of encoders and industrial Ethernet protocols. This “drive on a chip” system reduces cost and simplifies development.
This document provides an overview of the WGR-500-4PV industrial wall-mount gigabit router with 4-port 802.3at PoE+ and LCD touch screen. It has 5 gigabit Ethernet ports with 4 ports supporting PoE+, a 2.4-inch LCD touch screen, dual power input, and firewall security features. It can power and manage up to 4 PoE devices and provides flexible installation options, remote management capabilities, and VLAN support for isolated traffic and security. Key applications include powering and connecting PoE IP cameras and sensors for IoT networks.
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International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
A review on techniques and modelling methodologies used for checking electrom...nooriasukmaningtyas
The proper function of the integrated circuit (IC) in an inhibiting electromagnetic environment has always been a serious concern throughout the decades of revolution in the world of electronics, from disjunct devices to today’s integrated circuit technology, where billions of transistors are combined on a single chip. The automotive industry and smart vehicles in particular, are confronting design issues such as being prone to electromagnetic interference (EMI). Electronic control devices calculate incorrect outputs because of EMI and sensors give misleading values which can prove fatal in case of automotives. In this paper, the authors have non exhaustively tried to review research work concerned with the investigation of EMI in ICs and prediction of this EMI using various modelling methodologies and measurement setups.
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Harnessing WebAssembly for Real-time Stateless Streaming PipelinesChristina Lin
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
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