The document discusses several algorithms used for medical image compression. It describes the JPEG algorithm which uses discrete cosine transformation and is widely used. It also covers region of interest compression which focuses on important areas. Finally, it examines embedded zerotree wavelet compression and proposes a new unit embedded zerotree wavelet algorithm to improve on existing methods by reducing the number of nodes checked in the wavelet tree structure.
This document describes an automatic roof ventilation system for smart greenhouses using Arduino. The system uses sensors like a rain sensor, temperature and humidity sensor to monitor the greenhouse environment and control a servo motor to open and close the roof vents automatically. This helps regulate the temperature inside by balancing heat gain and loss. The system is designed to facilitate automated control and reduce manual labor while keeping costs low by using inexpensive components like an Arduino Uno microcontroller, sensors, servo motor and 3D printed enclosure.
GSM based agriculture monitoring systemIRJET Journal
This document describes an agriculture monitoring system that uses sensors to measure soil moisture and temperature, and sends alerts via SMS if the measurements exceed thresholds. The system includes an Arduino board connected to sensors for soil moisture and temperature, as well as a GSM module. The sensors continuously monitor conditions and transmit readings to users' phones via the GSM module if the moisture or temperature levels go above or below set points. This low-cost system allows small farmers to remotely monitor field conditions without expensive dedicated equipment.
This document describes a smart home automation project completed by six students. The project involved creating a system to control home appliances and monitor temperature/humidity using an Arduino, Bluetooth, and an Android app. Hardware components included an Arduino Uno, DHT22 sensor, relays, HC-05 Bluetooth module, and more. Software included code for the Arduino and an Android app created in Android Studio. The system allowed controlling lights, fans and more from a phone and monitoring the home environment remotely.
IRJET- Measuring Current and Power of Different Electrical EnginesIRJET Journal
This document describes a device designed to measure the current and power consumed by electric motors using Arduino and non-invasive current sensors. The device uses an Arduino Mega 2560 microcontroller to control a 2.8-inch TFT display, three current sensors, and an SD card module to store measurement data. The current sensors measure the current in single-phase, two-phase, and three-phase electric motors without cutting motor wires. Measurements are displayed on the TFT screen and stored on an SD card. The device is housed in a plastic cabinet and powered by an adjustable power supply. Tests were performed measuring current in three-phase motors of different voltages. The device allows continuous, remote monitoring of motor current
MY-Semi Inc. is a Taiwan-based company that designs mixed signal and LED driver ICs. The company has headquarters in Hsinchu, Taiwan and global network across Taiwan, Korea, China, Russia, Brazil, Turkey, Italy, UK, Spain, Germany, South Africa, and USA. MY-Semi provides LED panel driver, decorating driver, high accuracy pure driver, PWM driver, and error detection driver ICs for LED displays, lighting, and backlight applications. Key products include the MY9161, MY9182/9142, and MY9184 high accuracy constant current LED driver ICs.
The document discusses several algorithms used for medical image compression. It describes the JPEG algorithm which uses discrete cosine transformation and is widely used. It also covers region of interest compression which focuses on important areas. Finally, it examines embedded zerotree wavelet compression and proposes a new unit embedded zerotree wavelet algorithm to improve on existing methods by reducing the number of nodes checked in the wavelet tree structure.
This document describes an automatic roof ventilation system for smart greenhouses using Arduino. The system uses sensors like a rain sensor, temperature and humidity sensor to monitor the greenhouse environment and control a servo motor to open and close the roof vents automatically. This helps regulate the temperature inside by balancing heat gain and loss. The system is designed to facilitate automated control and reduce manual labor while keeping costs low by using inexpensive components like an Arduino Uno microcontroller, sensors, servo motor and 3D printed enclosure.
GSM based agriculture monitoring systemIRJET Journal
This document describes an agriculture monitoring system that uses sensors to measure soil moisture and temperature, and sends alerts via SMS if the measurements exceed thresholds. The system includes an Arduino board connected to sensors for soil moisture and temperature, as well as a GSM module. The sensors continuously monitor conditions and transmit readings to users' phones via the GSM module if the moisture or temperature levels go above or below set points. This low-cost system allows small farmers to remotely monitor field conditions without expensive dedicated equipment.
This document describes a smart home automation project completed by six students. The project involved creating a system to control home appliances and monitor temperature/humidity using an Arduino, Bluetooth, and an Android app. Hardware components included an Arduino Uno, DHT22 sensor, relays, HC-05 Bluetooth module, and more. Software included code for the Arduino and an Android app created in Android Studio. The system allowed controlling lights, fans and more from a phone and monitoring the home environment remotely.
IRJET- Measuring Current and Power of Different Electrical EnginesIRJET Journal
This document describes a device designed to measure the current and power consumed by electric motors using Arduino and non-invasive current sensors. The device uses an Arduino Mega 2560 microcontroller to control a 2.8-inch TFT display, three current sensors, and an SD card module to store measurement data. The current sensors measure the current in single-phase, two-phase, and three-phase electric motors without cutting motor wires. Measurements are displayed on the TFT screen and stored on an SD card. The device is housed in a plastic cabinet and powered by an adjustable power supply. Tests were performed measuring current in three-phase motors of different voltages. The device allows continuous, remote monitoring of motor current
MY-Semi Inc. is a Taiwan-based company that designs mixed signal and LED driver ICs. The company has headquarters in Hsinchu, Taiwan and global network across Taiwan, Korea, China, Russia, Brazil, Turkey, Italy, UK, Spain, Germany, South Africa, and USA. MY-Semi provides LED panel driver, decorating driver, high accuracy pure driver, PWM driver, and error detection driver ICs for LED displays, lighting, and backlight applications. Key products include the MY9161, MY9182/9142, and MY9184 high accuracy constant current LED driver ICs.
In this paper, describes about how to control home appliances, auto door sliding motor, fan and lighting using GSM technology by using android application through android mobile phone. Performing of these tasks with a single android device makes every faster because the android makes SMS communication. This paper serve as a basic structure of the communication control system. The programming is done door operating system, hedge light bulbs and fan and light bulbs inside the home. Arduino Uno, Sensors and serial communicating devices are incorporated and synchronized with the personal computer. Mrs Khin Ei Ei Khine | Mr Nay Soe Shwe | Mr Aung Myo Naing "GSM Based Home Appliance Control System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26743.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/26743/gsm-based-home-appliance-control-system/mrs-khin-ei-ei-khine
The Unitronics V350-35-RA22 micro-OPLC has 12 digital inputs, 8 relay outputs, and 2 analog outputs. It has a 3.5" color touchscreen and programmable function keys. Communication options include RS232, RS485, and Ethernet. The controller supports digital, analog, and temperature measurement I/Os. It can be programmed using the included VisiLogic software to create HMI screens and ladder logic programs.
In This PPT we are discussed about complete details of that product (Use,Operation, Technical details, Dimensions, Wiring, and etc..)
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This document describes a temperature controlled BLDC fan system using an Arduino board. The system uses a DHT-11 temperature sensor to measure the room temperature and controls the speed of a BLDC fan using PWM signals from the Arduino based on the temperature readings. As the temperature increases, the fan speed increases to effectively cool the environment. The system aims to efficiently control temperature using a variable speed fan driven by an Arduino board.
This document provides an overview of the electronics components used for a robotics competition, including:
1) The control system is centered around a National Instruments cRIO controller with I/O modules. Rookie teams will receive a smaller 4-slot cRIO compared to veterans' 8-slot models.
2) Other key components are a digital sidecar for PWM/DIO outputs, a power distribution module, analog and pneumatics breakouts, and motor controllers.
3) The operator interface consists of a netbook running control software connected via wireless to the cRIO, along with joysticks and a programmable I/O expansion device to monitor switches/buttons.
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.
JinkoSolar introduces a new line of smart solar modules that provide module-level monitoring and optimization features. The modules have a power output range of 255-315 watts and come with an integrated optimizer from Tigo Energy that allows for increased power production, safer installations, and lower operation and maintenance costs. The monitoring system provided allows users to monitor system performance in real-time through a cloud-based portal.
The document provides information about Golden Digital's environment monitoring system and various sensors that can be used with it. It describes the VT335i monitoring unit which supports temperature, humidity, smoke, power failure, and other sensors. Diagrams and examples are shown for system layout and accessing the monitoring interface via a web browser. Specific sensors are also outlined, including models for temperature & humidity (VT490), smoke detection (VT560), water leaks (cable sensor), and vibration monitoring (VT540).
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This document describes the LED Driver Aging Rack (LEDRACK-100W192P) from Lisun Electronics Inc. The rack can test up to 192 LED driver products simultaneously based on standards like IEC62384 and GB24825-2009. It includes the aging rack, control system, and LED load modules. The aging rack is over 20 feet long and can accommodate different driver output interfaces. The control system software allows setting test parameters and monitoring results in real-time.
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This document provides installation and configuration instructions for the TECNOLOGIC K49 series controller. It outlines:
1) Mounting requirements for the controller, including ambient temperature, humidity, and vibration limits. The controller is intended for indoor use.
2) Wiring diagrams and notes for different input types (thermocouple, RTD, voltage, current) and outputs (relays, SSRs). Proper wiring techniques are emphasized to avoid errors.
3) Technical specifications for the controller, including display type, accuracy, EMC standards, operating temperature, and power supply options. Instructions are provided for ordering controllers with different configurations.
This document provides instruction for using the T601 Multitasker, a 2-channel tachometer that measures frequency and analog signals. It has inputs for 2 speed sensors, 1 analog sensor, and 2 binary inputs. Outputs include 2 analog outputs, 4 relays, and 2 open collectors. The T601 is configured via PC software to measure parameters like speed and temperature. It can monitor sensors, detect speed and direction, and log data. The document provides details on installation, connections, configuration software, operating behavior, and specifications.
Batch 12(temperature based fan speed control & monitor)gourishettyvivek
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This document describes the design of a monitoring and data logging system for a generator. The system includes speed control, voltage control, and data logging capabilities. Sensors measure current, voltage, temperature, frequency, and RPM to control speed and voltage. The microcontroller interfaces with an ADC to read sensor values and control parameters. Data is logged and can be uploaded to a web page. The system provides automatic and manual operation as well as protection functions.
1) The document describes an internship report submitted by Daman Singh Walia for an embedded systems training program using PIC microcontrollers.
2) The training covered architecture, memory organization, interrupts, and timers of PIC microcontrollers. The intern interfaced hardware including LEDs, switches, LCDs, and Bluetooth modules with PIC microcontrollers.
3) The document provides information on embedded systems, PIC16F877A microcontroller features, and how to interface common hardware components like LEDs, switches, and LCDs with PIC microcontrollers.
The document describes a digital alarm clock circuit designed using the TMS8560 integrated circuit.
The circuit includes components like the TMS8560 and CD4541B ICs, a 3.2768MHz crystal oscillator, 7-segment displays, transistors, resistors, capacitors, and buttons to set the time and alarm. The TMS8560 IC drives the display and generates the alarm signal, while the CD4541B is used as a timer to swap between alarm sounds. The circuit works by allowing the user to set the time and alarm via buttons, which is then driven to the 7-segment display. The alarm signal is amplified to power a buzzer or speaker. Troubleshooting focuses on
The document provides installation and operation instructions for the Hygrotec MMY 170 trace moisture analyser. It consists of an Endress+Hauser DY75 gold/aluminum oxide probe and MMY 170 electronics module. Key features include measuring moisture as dewpoint in ppmv, temperature measurement, E+H bus communication, and optional liquid ppmw measurement. The document provides details on probe installation, analyser mounting and connection, programming functions, troubleshooting, and intrinsic safety certification.
Temperature based fan speed control & monitoring usingJagannath Dutta
Our object of making this project is for reducing the power consumption. And also to assist people who are disabled and are unable to control the speed of fan.
Assessment and Planning in Educational technology.pptxKavitha Krishnan
In an education system, it is understood that assessment is only for the students, but on the other hand, the Assessment of teachers is also an important aspect of the education system that ensures teachers are providing high-quality instruction to students. The assessment process can be used to provide feedback and support for professional development, to inform decisions about teacher retention or promotion, or to evaluate teacher effectiveness for accountability purposes.
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In this paper, describes about how to control home appliances, auto door sliding motor, fan and lighting using GSM technology by using android application through android mobile phone. Performing of these tasks with a single android device makes every faster because the android makes SMS communication. This paper serve as a basic structure of the communication control system. The programming is done door operating system, hedge light bulbs and fan and light bulbs inside the home. Arduino Uno, Sensors and serial communicating devices are incorporated and synchronized with the personal computer. Mrs Khin Ei Ei Khine | Mr Nay Soe Shwe | Mr Aung Myo Naing "GSM Based Home Appliance Control System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26743.pdf Paper URL: https://www.ijtsrd.com/engineering/electrical-engineering/26743/gsm-based-home-appliance-control-system/mrs-khin-ei-ei-khine
The Unitronics V350-35-RA22 micro-OPLC has 12 digital inputs, 8 relay outputs, and 2 analog outputs. It has a 3.5" color touchscreen and programmable function keys. Communication options include RS232, RS485, and Ethernet. The controller supports digital, analog, and temperature measurement I/Os. It can be programmed using the included VisiLogic software to create HMI screens and ladder logic programs.
In This PPT we are discussed about complete details of that product (Use,Operation, Technical details, Dimensions, Wiring, and etc..)
Please Support us and Follow our other Sites
https://automationtechplc2.blogspot.com
https://humidificationcontrol.blogspot.com
https://controlsandsystems.business.site
If you enjoyed this article, share it with your friends and colleagues
This document describes a temperature controlled BLDC fan system using an Arduino board. The system uses a DHT-11 temperature sensor to measure the room temperature and controls the speed of a BLDC fan using PWM signals from the Arduino based on the temperature readings. As the temperature increases, the fan speed increases to effectively cool the environment. The system aims to efficiently control temperature using a variable speed fan driven by an Arduino board.
This document provides an overview of the electronics components used for a robotics competition, including:
1) The control system is centered around a National Instruments cRIO controller with I/O modules. Rookie teams will receive a smaller 4-slot cRIO compared to veterans' 8-slot models.
2) Other key components are a digital sidecar for PWM/DIO outputs, a power distribution module, analog and pneumatics breakouts, and motor controllers.
3) The operator interface consists of a netbook running control software connected via wireless to the cRIO, along with joysticks and a programmable I/O expansion device to monitor switches/buttons.
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.
JinkoSolar introduces a new line of smart solar modules that provide module-level monitoring and optimization features. The modules have a power output range of 255-315 watts and come with an integrated optimizer from Tigo Energy that allows for increased power production, safer installations, and lower operation and maintenance costs. The monitoring system provided allows users to monitor system performance in real-time through a cloud-based portal.
The document provides information about Golden Digital's environment monitoring system and various sensors that can be used with it. It describes the VT335i monitoring unit which supports temperature, humidity, smoke, power failure, and other sensors. Diagrams and examples are shown for system layout and accessing the monitoring interface via a web browser. Specific sensors are also outlined, including models for temperature & humidity (VT490), smoke detection (VT560), water leaks (cable sensor), and vibration monitoring (VT540).
This document describes the LED Driver Aging Rack (LEDRACK-100W192P) from Lisun Electronics Inc. The rack can test up to 192 LED driver products simultaneously based on standards like IEC62384 and GB24825-2009. It includes the aging rack, control system, and LED load modules. The aging rack has 6 layers to test drivers under various load modes and conditions while the control system software monitors and records testing data in real-time.
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5. • Greenhouses are controlled-area-
environment to grow plants.
• It is a structural building with
different types of covering materials,
such as a glass or plastic roof and
frequently glass or plastic walls.
• It heats up because incoming visible
solar radiation (for which the glass is
transparent) from the sun is
absorbed by plants ,soil, and other
things inside the building.
7. • Greenhouses form an important part of the
agriculture and horticulture sectors of a
country.
• They can be used to grow plants under
controlled climatic conditions for optimal
production.
• Automated greenhouse involves the automatic
monitoring and controlling of climatic
parameters which directly or indirectly govern
the plant growth and hence their production.
• In order to control the climate factors and
environment autonomously ,it is required a
computer/software equipment.
8. What is a Automatic roof
ventilation of smart
greenhouse ?
9. Automatic roof ventilation of smart
greenhouse
a system that serves to balance the temperature in the room
greenhouse by opening the ventilation on the roof of the greenhouse
automatically
10. To facilitate the work of man.
Which can be applied to smart
greenhoue based arduino but
effective cost
13. Arduino/Genuino Uno is a microcontroller board based on the ATmega328P
(datasheet). It has 14 digital input/output pins (of which 6 can be used as
PWM outputs), 6 analog inputs, a 16 MHz quartz crystal, a USB connection,
a power jack, an ICSP header and a reset button. It contains everything
needed to support the microcontroller; simply connect it to a computer with
a USB cable or power it with a AC-to-DC adapter or battery to get started..
You can tinker with your UNO without worring too much about doing
something wrong, worst case scenario you can replace the chip for a few
dollars and start over again.
14. Microcontroller : ATmega 328
Operating voltage : 5 volt
Input voltage (recommended) : 7-12 Volt
Input voltage (limits) : 6-20 volt
Digital I/O pin : 14 (of which 6 provide PWM output)
Analog Input Pins : 6
DC current per I/O Pin : 40 mA
DC current for 3.3 Pin : 50 Ma
Flash memory :32 KB (AT mega 328) of which
0.5 KB used by boatloader
SRAM : 2 KB
EEPROM : 1 KB
Clock Speed : 16 mhz
15. FC 37
FUNCTION
The rain sensor is used to detect
water and it can detect beyond
of what a humidity sensor do.
Pins:
A0.......... Analog output
D0......... Digital output
GND..... Ground
VCC...... Positive voltage (input:
5v for analog 3.3v for Digital.)
Loop Pins:
+ .......... Sensor board hookup A
- .......... Sensor board hookup B
Dimensions:
2.17 in x 1.57 in x 0.31 in (5.5 cm
x 4.0 cm x 0.8 cm)
Weight:
0.28 oz (8 g)
16. DHT 11
Spesifikasi :
Supply Voltage: +5 V
Temperature range : 0-50 °C
error of ± 2 °C
Humidity : 20-90% RH ± 5%
RH error
Interface : Digital
Kabel Konektor 3 pin
17. MOTOR SERVO
Spesifikasi :
Spesifikasi
1. Weight: 9 g
2. Dimension: 22.2 x 11.8 x 31
mm approx.
3. Stall torque: 1.8 kgf·cm
4. Operating speed: 0.1 s/60
degree
5. Operating voltage: 4.8 V
(~5V)
6. Dead band width: 10 µs
7. Temperature range: 0 ºC –
55 ºC
18. PCB
A printed circuit board (PCB)
mechanically supports and
electrically connects electronic
component using conductive
tracks, pads and other features
etched from copper sheets
laminated onto a non-
conductive substrate.
Components – capacitors,
resistors or active devices – are
generally soldered on the PCB.
Advanced PCBs may contain
components embedded in the
substrate.
26. The challenge of this project
We have some problems with our project the first problem is uniting
program become one program arduino and the last problem that we
faced is how to make an interesting prototype design to cover our
project.