Intelligent Monitoring and Control Rendered to Street Lighting is a novel system to wirelessly control individual streetlights using a microcontroller and RF IC in each light. The system allows the control center to send messages through a gateway node to automatically or manually switch lights on/off, dim intensity, and monitor status. This reduces power consumption by 50% through dimming and lowers maintenance costs. The design aims to be flexible, compact and cost effective for street lighting control applications.
This presentation is based on the controlling of home appliances using simple commands. The key components are a SIM 300 GSM module, an Arduino UNO board and a 4 channel 12 volt relay.
In IoT applications, BLE frequency, 433MHz frequency, Wi-Fi frequency, 2.4GHz frequency, GPS frequency, GPRS frequency, LoRa frequency, NB-IoT frequency, etc. are often mentioned technologies. Among them, 433MHz frequency has a wide range of applications but is not well known. In this article, we will start from a few basic knowledge points to introduce 433MHz frequency.
Wireless radio frequency is a kind of non-contact automatic identification technology that emerged in the 1990s of the 20th century and is a kind of wireless communication technology with close distance, low complexity, low power consumption, low data rate, and low cost.
Home security system is needed for convenience and safety. This system invented to keep home safe from intruder. In this work, we present the design and implementation of a GSM & PIR sensor based home security system using ARDUINO-UNO board. Which take a very less power. The system is a arduino-uno based home security system which contains a GSM modem and PIR sensor with servo-motor and a camera which provides a better security. The system can response rapidly as intruder enters into the trigged zone, PIR sensor sense the object and GSM module will send a notification as a SMS to the registered number of the home owner, and can also give a snapshot of that object. This security system for alerting a house owner wherever he will. In this system as a object enters into the zone GSM module produce a signal through a public telecom network and sends a message or redirect a call that that tells about your home update or predefined message which is embedded in arduino-uno board. Suspected activities are conveyed to remote user through SMS or Call using GSM technology.
This presentation is based on the controlling of home appliances using simple commands. The key components are a SIM 300 GSM module, an Arduino UNO board and a 4 channel 12 volt relay.
In IoT applications, BLE frequency, 433MHz frequency, Wi-Fi frequency, 2.4GHz frequency, GPS frequency, GPRS frequency, LoRa frequency, NB-IoT frequency, etc. are often mentioned technologies. Among them, 433MHz frequency has a wide range of applications but is not well known. In this article, we will start from a few basic knowledge points to introduce 433MHz frequency.
Wireless radio frequency is a kind of non-contact automatic identification technology that emerged in the 1990s of the 20th century and is a kind of wireless communication technology with close distance, low complexity, low power consumption, low data rate, and low cost.
Home security system is needed for convenience and safety. This system invented to keep home safe from intruder. In this work, we present the design and implementation of a GSM & PIR sensor based home security system using ARDUINO-UNO board. Which take a very less power. The system is a arduino-uno based home security system which contains a GSM modem and PIR sensor with servo-motor and a camera which provides a better security. The system can response rapidly as intruder enters into the trigged zone, PIR sensor sense the object and GSM module will send a notification as a SMS to the registered number of the home owner, and can also give a snapshot of that object. This security system for alerting a house owner wherever he will. In this system as a object enters into the zone GSM module produce a signal through a public telecom network and sends a message or redirect a call that that tells about your home update or predefined message which is embedded in arduino-uno board. Suspected activities are conveyed to remote user through SMS or Call using GSM technology.
Power Theft Identification and Monitoring using GSM moduleAshishPanchdhar1
developed the system were we are using Arduino Atmega328 and current sensors and GSM module attached to every pole. The current sensor keeps the track of amount of current pass through it. When this supply reaches to other end of the pole than the current sensor available at pole 2 will measure the current receive and gives the reading to the Arduino Atmega328. Then the Arduino compares the current readings to the previous readings and if the supply is not approximately equal than the Atmega328 trigger the GSM module. Then the GSM module will send the SMS to the distributor that the amount of current received is not approximately equal and there is some illegal action occurred in the section from pole 1 to pole 2. This will help the distributor to overcome the losses and where the losses will be take place and the theft of the electricity
Safety is the most important requirement of home for people. With the development of IT technology, network and automatic control technology, a remote home security monitoring and alarming system becomes more and more practicable today. By combining wireless sensor network(WSN) and GSM technology, this paper designs a low-power consumption remote home security monitoring and alarming system that can detect the theft, leaking of raw gas and fire, and send alarm message to the house owner’s mobile phone .Wireless sensor network is composed of a large amount of miniature self-organizing wireless sensor nodes. By combining three kinds of technology such as sensor, micro mechatronics and wireless communication, WSN can detect, collect and deal with the object information in its covering area, and send data to the observer. In a word, WSN technology has the advantages of wide covering area, able to remote monitoring, high monitoring precision, fast network establishment and reasonable cost . GSM network has the advantages of mature technology, wide covering area, long communication distance, and sound communication effect and so on. The remote home security system presented in this paper combines so many advantages of WSN and GSM. Firstly, wherever the users are, once some dangerous instance happens in home, such as gas leaking or thief intruding, this system can send alarm short message to the users through GSM network immediately, informing people the possible dangerous circumstances in home. Secondly, the wireless sensor network established in home has the features of ease establishment, without use of cable, and low-power consumption. Intelligent home, also known as the smart residential home, is moving towards the wireless remote control, multi-media control, and high-speed data transmission. The key technology of intelligent home is compatible to household controllers and it can also meet the transmission requirements through home networking . At present, lots of integrated transport network is based on comprehensive wiring technology , limiting the system to special places, and higher cost. Currently, researches on the wireless intelligent home security surveillance system is becoming a hotspot due to its flexibility and convenience. At present, the application of intelligent home wireless communication technologies mainly include: IrDA infrared technology, Bluetooth and ZigBee technology, and so on . IrDA is a short distance for the half-duplex point-to- point communication. Besides, it’s inconvenient and of high error rate, which make IrDA not applicable to the family network communication. Bluetooth technology is limited by network capacity and it costs much. So Bluetooth technology is not suitable for the home network with a large number of nodes. ZigBee technology has the moderate transmission range and larger network capacity. Here ZigBee technology is developed in the monitoring system
Wireless metering adapter replaces the traditional human reading method and send the meter reading and other parameters to the cloud using various wired and wireless technology. CASCADEMIC Solutions let you to choose the technology and we can also customize the existing solution based on your requirement.Clink on http://cascademic.com/index.php/wireless-metering-adapter for more information.
It contains construction, working, and result analysis of smart irrigation based on Lora WAN technology. And also it analyses the battery performance in different cased and area of coverage by using Lora WAN
Zigbee is a technological standard designed for control and sensor networks based on IEEE 802.15.4. The standard is developed and promoted by the Zigbee Alliance.
suppose this security system is fitted in your car . If a thief breaks in and tries to drive away your car then he/she have enter the code for ignition .If the code mismatches then it will send a message to the proprietor's cell "security breach".By this we will come to know that someone is trying to steal your car.
"THAT IS THE IDEA OF THE PROJECT"
Power Theft Identification and Monitoring using GSM moduleAshishPanchdhar1
developed the system were we are using Arduino Atmega328 and current sensors and GSM module attached to every pole. The current sensor keeps the track of amount of current pass through it. When this supply reaches to other end of the pole than the current sensor available at pole 2 will measure the current receive and gives the reading to the Arduino Atmega328. Then the Arduino compares the current readings to the previous readings and if the supply is not approximately equal than the Atmega328 trigger the GSM module. Then the GSM module will send the SMS to the distributor that the amount of current received is not approximately equal and there is some illegal action occurred in the section from pole 1 to pole 2. This will help the distributor to overcome the losses and where the losses will be take place and the theft of the electricity
Safety is the most important requirement of home for people. With the development of IT technology, network and automatic control technology, a remote home security monitoring and alarming system becomes more and more practicable today. By combining wireless sensor network(WSN) and GSM technology, this paper designs a low-power consumption remote home security monitoring and alarming system that can detect the theft, leaking of raw gas and fire, and send alarm message to the house owner’s mobile phone .Wireless sensor network is composed of a large amount of miniature self-organizing wireless sensor nodes. By combining three kinds of technology such as sensor, micro mechatronics and wireless communication, WSN can detect, collect and deal with the object information in its covering area, and send data to the observer. In a word, WSN technology has the advantages of wide covering area, able to remote monitoring, high monitoring precision, fast network establishment and reasonable cost . GSM network has the advantages of mature technology, wide covering area, long communication distance, and sound communication effect and so on. The remote home security system presented in this paper combines so many advantages of WSN and GSM. Firstly, wherever the users are, once some dangerous instance happens in home, such as gas leaking or thief intruding, this system can send alarm short message to the users through GSM network immediately, informing people the possible dangerous circumstances in home. Secondly, the wireless sensor network established in home has the features of ease establishment, without use of cable, and low-power consumption. Intelligent home, also known as the smart residential home, is moving towards the wireless remote control, multi-media control, and high-speed data transmission. The key technology of intelligent home is compatible to household controllers and it can also meet the transmission requirements through home networking . At present, lots of integrated transport network is based on comprehensive wiring technology , limiting the system to special places, and higher cost. Currently, researches on the wireless intelligent home security surveillance system is becoming a hotspot due to its flexibility and convenience. At present, the application of intelligent home wireless communication technologies mainly include: IrDA infrared technology, Bluetooth and ZigBee technology, and so on . IrDA is a short distance for the half-duplex point-to- point communication. Besides, it’s inconvenient and of high error rate, which make IrDA not applicable to the family network communication. Bluetooth technology is limited by network capacity and it costs much. So Bluetooth technology is not suitable for the home network with a large number of nodes. ZigBee technology has the moderate transmission range and larger network capacity. Here ZigBee technology is developed in the monitoring system
Wireless metering adapter replaces the traditional human reading method and send the meter reading and other parameters to the cloud using various wired and wireless technology. CASCADEMIC Solutions let you to choose the technology and we can also customize the existing solution based on your requirement.Clink on http://cascademic.com/index.php/wireless-metering-adapter for more information.
It contains construction, working, and result analysis of smart irrigation based on Lora WAN technology. And also it analyses the battery performance in different cased and area of coverage by using Lora WAN
Zigbee is a technological standard designed for control and sensor networks based on IEEE 802.15.4. The standard is developed and promoted by the Zigbee Alliance.
suppose this security system is fitted in your car . If a thief breaks in and tries to drive away your car then he/she have enter the code for ignition .If the code mismatches then it will send a message to the proprietor's cell "security breach".By this we will come to know that someone is trying to steal your car.
"THAT IS THE IDEA OF THE PROJECT"
This is the third message of Pastor Chuck Bernal's series TRACTION. This message discusses how we can get "unstuck" from the things that keep us from moving forward. Using the story of Paul and his personal struggles, he reveals 8 practical steps from Philippians 3 that will move us forward in 2016. This message was delivered on Sunday, January 24, 2016.
Android Based Switch Controlling Technique for LED BulbsUsing Bluetooth/Wi-Fi...IJRES Journal
This paper presents an efficient approach to switch on/off and control the intensity of an LED bulb from a remote place using Android Applications installed in a Smartphone. As LED household bulbs and lights are energy efficient, drop-in replacements for the incandescent lighting found in homes and offices. These lights produce a warm brightness while providing a significant cost savings over traditional lighting. Bluetooth & Wi-Fi modules are used simultaneously as an interface that make connection between Android Applicationand the LPC2148 controller by which the generated output can be viewed with the help of an LED bulb and control various other devices, based on the availability in particular areas.
Handicapped Assistance Device for Controlling Electrical Appliances Jamuna R - Assistant Professor,
Abhinai S - UG scholar,
Jhananadhan SP - UG scholar,
Department of ECE,
SNS College of Engineering, Coimbatore, India
Health Monitoring System of Elderly using Wireless Sensor NetworkIjcatr04031005Editor IJCATR
Wireless-sensor-network-based home monitoring system for elderly activity behaviour involves functional assessment of daily activities. In this paper, we report a mechanism for estimation of elderly well-being condition based on usage of house-hold appliances connected through various sensing units. We define a two new wellness functions to determine the status of the elderly on performing essential daily activities. The modernized system for monitoring and evaluating the essential daily activities was tested at homes for four different elderly persons living alone and the results are encouraging in determining wellness of the elderly.
Application of Zigbee in Smart Home with Dynamic Routing AlgorithmNooria Sukmaningtyas
In order to avoid damaging the walls and bore a hole through the walls, also to save the cost of
rewiring, low voltage power line can be used to implement the smart home. However, several difficult
problem must be solved at the same time , the most important are finding a technology method to
suppress the noise interference and resist the weaker signal. The smart home system is introduced in the
paper. During the design of Smart Home System adopting power line signal carrier, a dynamic routine
algorithm based on the idea of Genetic Algorithm is proposed to cope with the time-varying and random
feature of power line channel. Thus the system can find the transmission path in real time and dispatch the
signal carrier to transmit among the nodes. With this algorithm, the communication between a certain
group-controller and its terminal nodes or between the main-controller and the group-controllers is realized
successfully. In the proposed algorithm all nodes but the controller adopt same driver, therefore the plug
and play is realized for all nodes.
GSM Based Device Controlling and Fault DetectionIJCERT
The mobile communication has expanded to a great extent such that it can be applied for controlling of electrical devices. These projects make use of this capability of mobile phone to control three electrical devices with some use of embedded technology which can be extended up to eight devices. Apart from controlling it also does the sensing of the devices. Thus a user can be able to know of the status of the devices and in addition to that the user get notified if any fault is detected. Here in the project controlling and sensing is done for three electrical devices only. According to the user need both of this can be expanded.
A ZIGBEE AND EMBEDDED BASED SECURITY MONITORING AND CONTROL SYSTEMijistjournal
As technology becomes more advanced and modernized; more features are added to the existing system for the purpose of satisfying the increasing security needs of the people. Deploying wireless technologies for security and control in home offers attractive benefits along with user friendly interface. In this paper we present a smart security system comprises of Zigbee, GSM, Sensors and Smartphone for Security monitoring and control, when the user is at remote premises. Three sensors namely PIR, vibration and door sensor are installed at windows and doors. Whenever there is a security breach the sensors sends the signal to the Pic microcontroller. The Max 232 converter provides serial interface between the microcontroller and the zigbee. The Zigbee end device then transmits the signal to the Zigbee coordinator. The ZC at the control console communicates with MCU using max 232 converters. MCU would in turn access and control the GSM module via AT commands and automatically sends SMS to the owner's mobile phone informing him about the security breach. On receiving the SMS, user can make a video call using Skype account; Smartphone installed at home will feed us with a live video. On viewing the video the user can know whether an intruder has entered or not. Then accordingly faint gas valve and door lock can be controlled by the user. Thus whenever there is an intrusion, our system lets the user to monitor and control his premises from any part of the world.
As technology becomes more advanced and modernized; more features are added to the existing system
for the purpose of satisfying the increasing security needs of the people. Deploying wireless technologies
for security and control in home offers attractive benefits along with user friendly interface. In this paper
we present a smart security system comprises of Zigbee, GSM, Sensors and Smartphone for Security
monitoring and control, when the user is at remote premises. Three sensors namely P
IR, vibration and door sensor are installed at windows and doors. Whenever there is a security breach the
sensors sends the signal to the Pic microcontroller. The Max 232 converter provides serial interface
between the microcontroller and the zigbee. The Zigbee end device then transmits the signal to the Zigbee
coordinator. The ZC at the control console communicates with MCU using max 232 converters. MCU
would in turn access and control the GSM module via AT commands and automatically sends SMS to the
owner's mobile phone informing him about the security breach. On receiving the SMS, user can make a
video call using Skype account; Smartphone installed at home will feed us with a live video. On viewing
the video the user can know whether an intruder has entered or not. Then accordingly faint gas valve and
door lock can be controlled by the user. Thus whenever there is an intrusion, our system lets the user to
monitor and control his premises from any part of the world.
Low power consumption and wide area coverage are two important factors that build LPWA technology. SigFox is the operator of a cellular network dedicated to low throughput communication for connected devices. Company’s patented UNB technology achieves a broad scale connection to M2M/IoT devices over large distances. Low bit rate transmissions allows greater autonomy and saving energy at end devices.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Similar to Intelligent monitoring and control rendered to street lighting (20)
Intelligent monitoring and control rendered to street lighting
1. INTELLIGENT MONITORING AND CONTROL RENDERED
TO STREET LIGHTING
ABSTRACT:
Intelligent Monitoring and Control Rendered to Street Lighting is a novel idea to
wirelessly control streetlights. Every individual streetlight i.e. node has a unique IPv6 and
IEEE address through which it can be controlled from the control Centre. The system is
designed using a microcontroller MSP430F6636 and an RF IC CC1180. The RF IC is used
for sending and receiving the monitoring and control signals to and from the control Centre.
The microcontroller processes the signals obtained from the RF IC as well as the lamp.
Messages are sent from control Centre to nodes via gateway, which is a node with a GPRS
module. The gateway passes the messages to the respective nodes by hopping the message
between the nodes. The communication between nodes takes place in ISM band and that
between gateway and control Centre through GPRS. Automatic as well as manual remote
switching on or off of individual lamps, controlling their light intensity and acquisition of
status and failure is possible. Through this system we can save almost 50% of the power
consumed just by strategically dimming lights. Maintenance and patrol costs are also
reduced. This paper attempts to make this system as flexible, compact and cost effective as
possible, also the front end can be modified to suit any application.