Here is the list of the top 30 best GSM Project Ideas for ECE final-year students brought to you by Listyaan.
Engineering Projects for GSM. Projects using the GSM, or Global System for Mobile Communications, are built on one of the century’s most cutting-edge technologies.
The current crop of auto alarm systems is still no match for skilled burglars. The mechanism may be bypassed in a couple of seconds. A reliable two-way connection between the alarm system and the car owner is possible with mobile-managed car security.
When an incursion is found, this technology may promptly alert the car’s owner. Additionally, the owner of the automobile may use a phone call to remotely operate any of the vehicle’s functions from anywhere at any time.
This system, which is based on the GSM positioning idea, can offer automobile location information to aid in the recovery of stolen vehicles, making it an improvement above the typical car alarm system.
For home security, a wireless LPG leakage monitoring system is suggested. The LPG leak detection system notifies the user of the leak, activates the exhaust fan as a safety precaution, and monitors for further LPG leaks.
The device also shows the approximate usage in terms of total weight as an extra feature. The suggested system uses a GSM module to send an SMS alerting users of a gas leak.
To evaluate the routing capabilities, this study looks into a technique and tool for simulating the General Packet Radio Service (GPRS) core network. The most commonly used mobile packet data transport technique worldwide is GPRS.
It makes extensive structural modifications to the Global System for Mobile Communications (GSM) air interface and uses an Intranet Protocol (IP)-based core network. It also serves as the foundation for the transmission and switching architecture of mobile networks in the future.
Robotic systems are one of the primary solutions to the need for cutting-edge technology that can offer smart services in a variety of contexts in smart cities.
When dealing with persons who have a sudden cardiac arrest, time is of the essence since they may lose their lives if emergency care is not available. Therefore, the sufferer must have an emergency treatment utilizing an automated external defibrillator (AED) within a few minutes of falling.
To support multiple modes of operation, from manual to autonomous working, the ambulance robot has been created and developed. It carries an AED along in the case of a sudden cardiac arrest and allows for various modes of operation, from manual to autonomous operating.
Making quick, precise judgments is essential to the care of critically sick patients so that life-preserving and life-saving therapy may be effectively administered.
According to statistics, someone worldwide loses their life every minute. It is based on remote patient monitoring after a patient is released from the hospital. A dependable, energy-efficient remote patient monitoring system has been devised and constructed.
It can transmit patient parameters instantly. The doctors may use it to continuously check the patient’s vital signs, including temperature and ECG. The patient’s metrics (temperature, heartbeat, and ECG) are continually monitored and remotely communicated via Zigbee.
The technical issues and fixes in the Golden Gate Architecture of Telia Mobile are the subject of this project. The Golden Gate project will provide a connection between the circuit-switched network and the IP network for service control.
Many issues must be resolved to connect the various PSTN, GSM, W-LAN, and GPRS network users. Telia has previously identified most of the issues. It is our responsibility to assess the Interconnect- and Service Provider functions of the Golden Gate architecture.
With components as simple as temperature, light, and motion sensors and as powerful as contemporary household appliances, home automation is a broad and diverse area.
The main goal of this work is to make it easier for the user to control appliances by two methods: first, remotely via voice command, and second, using a remote control to control the appliances which is also an override control.
While there is technology available today for home automation, these technologies are incompatible with one another and only address communication and physical media.
The “GSM-based Control System” puts into practice the new uses for the GSM technology. A suggested control system would function as an embedded system that will use GSM networks to monitor and operate appliances and other devices locally utilizing built-in input and output peripherals.
The project’s core idea is to receive received SMS and process it further as necessary to carry out various tasks. The kind of procedure to be carried out relies on the SMS’s content.
The transmitted SMS is first saved and polled from the receiving mobile station, after which the necessary control signal is created and delivered to the intermediate hardware that we have created by the instruction received in the form of the sent message.
Around the world, older people are currently suffering from dementia and Alzheimer’s disease. Dementia and Alzheimer’s disease patients in their senior years need ongoing care.
In this experiment, the restriction was discovered after a brief evaluation of geriatric tracking systems, and pertinent device changes were recommended. To express the viewpoint of users of LDS Finder and Teltonika HandHeld tracking devices, a poll was performed.
This project focuses on a few issues with international applications of electronic toll collecting for highways and expressways.
By Directive 2004/52/EC, these systems must make use of at least one of the following technologies: 5, 8 GHz microwave technology, GSM-GPRS mobile communications (reference GSM TS 03.60/23.060), and satellite location.
Voice over IP (VoIP) is the ability to make phone calls and transmit faxes via IP-based data networks with an acceptable level of service and perhaps a better cost/benefit ratio than we can now achieve with the Public Switched Telephone Network (PSTN).
It offers a solution to these problems by offering a secure Mobile VoIP platform that reduces processing costs and bandwidth use.
High-throughput, low packet expansion security protocols, including Secure Real-Time Protocol (SRTP), and fast encryption techniques are mostly used to achieve this (such as the Advanced Encryption Standard, AES).
A smart card that is made to fit inside a mobile phone is known as a subscriber identity module or SIM. It gives a user’s identity to a network, enabling them to utilize services like voice calls, email, the internet, and text messaging.
It includes a microprocessor and some RAM (Random Access Memory) memory for processing instructions and storing user data (Electronically Erasable Programmable Read Only Memory or EEPROM). Additionally, the SIM has some Read-Only Memory (ROM) where the card’s operating system is stored.
The microcomputer installs the operating system from ROM into the RAM of the SIM card when it is enabled, and it then executes commands as directed by the mobile device (ME) or card access device(CAD).
The Transmission Control Protocol is the most used protocol for the Internet’s dependable service and congestion management (TCP). Knowing how TCP functions, for this reason, is becoming increasingly crucial as mobile apps’ use of the Internet increases.
In this study, simulations were created to pinpoint various issues that may arise while running TCP and RLC/MAC together. A new TCP module and currently available EGPRS testing tools were used to create the simulations.
This research looks into the needs and necessity for such automatic testing of the GSM system’s traffic channels. A solution that will be incorporated into the Ericsson TSS is suggested.
The inability of the testing tools of today to test voice channels with the speech transcoder unit installed is one issue that has to be fixed. A voice codec is implemented as part of the inquiry for usage on the test platform’s existing hardware.
The improved full-rate codec, which generates a bitstream at a rate of 12.2 kbit/s and offers a reasonable balance between compression and voice quality, was chosen as the speech codec.
This project’s goal is to keep an eye out for liquid petroleum gas (LPG) leaks to prevent home fires and provide safety features in areas where security has been a major concern.
The system uses a gas sensor to detect LPG leaks and notifies the user through SMS when a leak is discovered. The suggested system sends an SMS to the user informing them of the gas leak via GSM.
When the system determines that the LPG concentration in the air exceeds a predetermined level, it immediately notifies the user by SMS to a designated mobile phone and notifies the occupants of the home by activating the alarm, which simultaneously activates the LED and Buzzer and displays the message on the LCD, so that they can take the appropriate action.
A dial-over Data allows for more affordable communication between any phone that can access the telephony network of the customer firm, including SIP clients, landlines, and mobile phones.
To determine the reliability of the approach and the components employed, this study examines current technologies and compares them to the original prototype.
This project also highlights the enhancements made to the features provided by the DoD solution: from the original prototype, a stable and functioning product has been created, and it has undergone internal testing.
In this project, an embedded system that is utilized to stop or restrict car theft is designed and developed. A GSM-based embedded system underlies the created instrument. To deliver the message to the owner’s mobile device, a GSM interface modem is additionally linked to the microcontroller.
By inputting a secure password, this device’s primary goal is to prevent unwanted entry to the car while also using GSM communication technology to update the authorized person (owner) on the state of the same vehicle.
In this system, the idea of network security is addressed. This design’s core idea is to integrate mobile communications with embedded systems.
The primary goal of the effort is to build a dangerous gas detection and warning system based on microcontrollers. Every second, the LCD detected and exhibited dangerous gases, such as propane and LPG.
An alarm is promptly triggered and an alert message (SMS) is sent to the authorized person via the GSM if these gases are presently more than the normal amount.
This automated system’s benefit over a manual one in detecting emergencies and sending out alerts is that it provides quick reaction times and precise emergency detection, which in turn promotes the quicker spread of dangerous situations.
The main objective of the project is to create an SMS-driven automatic display toolkit that can take the place of the programmable electronic display currently in use. It is suggested to provide a toolkit for receiving cum displays that can be controlled by approved mobile phones.
It is suggested that this project be carried out at the institute level. The electronic displays now in use are programmable displays that require regular reprogramming.
These display boards may be enhanced with the GSM-based display toolkit to make them fully wireless. With the assistance of the incoming SMS and the appropriate validation, the display board programs itself. A method like this works well for fast information transport.
The most crucial and fundamental role of this system is to avoid accidents and save people and property from disaster. It also assists you in improving company safety standards and meeting legal obligations on environmental commitments.
The appliance is typically started and stopped at the signal of an automated controller, such as a thermostat, which may be activated by temperature, pressure, or other factors. The equipment has an intermediate operation.
A dangerous LPG leak in your automobile or at a gas station or storage tank environment can be found with an ideal gas sensor. This device is simply installed into an alarm system to sound an alarm or display the LPG concentration visually.
The sensor offers a rapid reaction time and great sensitivity. Additionally, the sensor can detect cigarette smoke, iso-butane, propane, and LNG. The output of the LPG sensor decreases if it detects any gas leaking from the storage.
The microprocessor keeps track of this weak signal and uses it to spot a gas leak. The microcontroller has now turned on the buzzer and LED.
In recent years, mobile payments have grown in popularity. New wireless networks like the LTE and WiMAX networks, as well as new mobile devices with Internet capabilities like the iPhone, are being created as new mobile solutions.
From a security standpoint, this paper will demonstrate, describe, and contrast some of the most well-known wireless networks that support mobile payments.
The networks used are WLAN and 3G with a GSM connection. Each network’s security needs as well as some of the most significant threats they face will be presented and debated. The report’s primary goal is to determine if mobile payments provide an adequate degree of security for the typical user.
Gas leakage is currently a major issue in homes, gas cars, and the industry. Gas leaking causes a variety of incidents that cause both material loss and human harm. The suggested design can identify and manage gas leaks.
When a gas leak is discovered, the system notifies the subscriber through SMS, alarm, and display unit. It will shut off the area’s electricity and gas supplies simultaneously for main safety. The system employs a GSM module to deliver SMSs, and stepper motors are utilized to switch off the gas and electricity supplies.
The suggested work makes use of an RF connection to alarm the customer and nearby neighbors. The system provides the gas re-setting of the system in addition to remedial action.
To assess how secure iOS and BlackBerry OS are, what dangers users face while using them, and how to tighten platform security to make these platforms as secure and risk-free to use as feasible, this paper examines these two well-known smartphone operating systems.
The discussion and formulation of recommendations on the usage of a distinct hardware token to increase platform security further is another goal of this work.
A risk and threat analysis as well as some real testing to see what can be done have both been done to determine the security level of these platforms. Without the user’s knowledge, the spyware was able to access and send private data from the device to a server.
The project is a GSM SMS Controller without a GSM modem. This makes use of the BTSerial1 module, which wirelessly connects to a Bluetooth mobile phone and the serial port of the PIC16LF876A.
The project’s multitasking engine is called threads. Additionally, PDU mode is used for SMS sending and receiving to support more Bluetooth phones.
Because of the increase in crimes against women in recent years, women’s safety is a critical concern. We suggest a GPS-based women’s safety system with dual security features to aid in resolving this problem.
This gadget has a system that guarantees twofold notifications if a woman is harassed or believes she is in peril. If a woman even suspects she could be in difficulty, she can activate this system.
It is helpful since a woman may or may not get the chance to push the emergency button once an event involving a woman happens.
This project demonstrated an automated healthcare system that may assist and make it easier for a person with paralysis to carry out their everyday activities. When a patient has a paralysis attack, all or part of their body may become immobile.
This limits their range of motion and makes it difficult for them to interact with others since they are unable to talk normally. It will be challenging for medical professionals to comprehend what they are trying to say and assist them in taking care of their everyday necessities, such as eating, drinking, taking a bath, and other things.
By creating this program, the health officer will be able to help a patient who is paralyzed when they are notified by the patient’s message via the GSM network.
One of the main causes of traffic accidents all around the world is drunk driving. Drivers have been found to have excessive blood alcohol levels in all road accident instances around the globe. To transmit position information, we use gsm and GPS in conjunction with an Arduino-based smart alcohol-detecting system.
We also utilize a motor to simulate a car to show how the technology can automatically detect alcohol in the breath. When alcohol is found, we also employ a GPS module with GSM to halt the vehicle’s motor and send an SMS to the appropriate person.
Through a directed graphical LCD, the controller circuit enables the user to guide the wheelchair. An rf receiver is part of the wheelchair circuit, which is used to receive these signals and then activate the wheelchair motors to produce the required movement.
As a result, both a handicapped person and someone else may easily control the wheelchair from a distance of three to four meters. The device also has emergency assistance functions for the handicapped.
Pressing a button will send the person’s GPS location to their near and dear ones through SMS message if they are in distress or need assistance.
The soldier health and location tracking system enables the military to monitor a soldier’s current GPS location as well as their overall health, including their body temperature and heart rate.
A further component of the system allows soldiers to manually request assistance or to alert the military if they require assistance. The GPS modem transmits the latitude and longitude position together with a connection pattern, allowing the military to follow the soldier’s present location.
The method is particularly useful for gathering information about a soldier’s health and giving them immediate assistance.
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