1. Low-Cost Mesh WiFi Repeater
The Low-Cost Mesh WiFi Repeater project features an affordable solution for extending the range of your WiFi network. Utilizing mesh networking technology, build your own Repeater which enhances coverage and eliminates dead zones, ensuring a reliable and seamless internet connection.
2. Wireless Sensor Nodes
This project focuses on developing a mesh sensor network, where multiple nodes seamlessly communicate with each other and transmit data to a central node. The small size of IndusBoard allows for unobtrusive deployment, making it an ideal candidate for applications where discreet sensing and data transmission are crucial.
3. Digital Twin With IoT Predictive Maintenance
This project employs the compact IndusBoard, equipped with inbuilt sensors such as accelerometer (ACC) and temperature sensor, along with external sensors to monitor machine conditions. By analyzing noise, vibrations, and other parameters, the goal is to predict potential faults in machines. The data is transmitted to the cloud, allowing for real-time analysis and preventive actions.
4. Smallest Micro VNC Viewer Watch
Control and monitor laptops and systems os from a wristwatch
5. AI ML Sound Classification
In this project, we will explore the application of Artificial Intelligence (AI) and Machine Learning (ML) techniques for sound classification to detect faults in machines. By training a model to classify different sound patterns, we can identify abnormal tones and analyze the acoustic signals for fault detection, musical tones, and other sound-related applications.
6. Mesh Network Smart Home Controller
Create a smart home ecosystem by establishing an IoT mesh network to control and connect various home appliances such as lights, bulbs, and thermostats across multi-floor buildings. Utilizing small IoT mesh expansion devices, this project aims to provide seamless connectivity and centralized control for enhanced home automation.
7. Smart Touch Board WIth 10 Touch Switch Controller
Transform your home into a modern and smart living space by replacing traditional mechanical switch boxes with an all-in-one smart touch switchboard. This project utilizes the power of 10+ touch sensors integrated into a single board, offering touch-based control for various home appliances. Additionally, the smart switchboard is integrated into an IoT dashboard for centralized control over connected IoT devices.
8. IoT Home Home Automation
Transform your home into an intelligent and energy-efficient living space with a Smart Home Automation System. This project aims to automate the switching of home appliances based on time, human presence, and voice commands using Alexa integration. By incorporating sensor nodes, this system not only enhances convenience but also contributes to energy savings, ultimately reducing electricity bills
9. Tiny Sized IoT Environment Stickers
Create a compact and versatile environmental monitoring solution with a Portable Wall-Stickable Sensor Node. Utilizing the tiny-sized and in-built sensors of a dedicated board (e.g., IndusBoard), this project aims to design a sensor node that can be easily attached to walls, providing real-time data on humidity, air pressure, and other environmental parameters. The portable and adhesive nature of the device allows for quick deployment in various micro spaces, aiding in monitoring environmental changes and pollution levels.
Super Cool Super Cool Devices & Applications
10. Wearable Smart Watch
Embark on the journey of creating your very own DIY Smartwatch, allowing you to design a custom user interface, add personalized functions, and enjoy the flexibility of programming your wearable device. This project encourages creativity and customization, enabling you to build a smartwatch tailored to your preferences.
11. Wearable RFID Hacking Device
Enhance the security of your RFID and NFC cards with a wearable scanning system. This project involves designing a portable and convenient solution to check the authenticity of RFID cards, detect potential cloning attempts, and protect your RFID keys and card data. The wearable device provides a quick and efficient way to ensure the security of your access cards.
12. Wearable Smartwatch Keyboard and Mouse
Tired of carrying a separate keyboard and mouse for your laptop? This project introduces the concept of a Wearable Smartwatch Keyboard and Mouse, allowing you to control your laptop directly from your wrist. With this innovative solution, you can type messages, navigate, and interact with your laptop effortlessly using your smartwatch.
13. Wearable CHAT GPT Smartwatch
Imagine having the power of ChatGPT, a generative AI, right on your wrist. This project introduces the concept of the smallest wearable ChatGPT running system—a personal assistant on your wrist. With this innovative wearable, you can interact with ChatGPT for information, assistance, and even casual conversation directly from your wrist.
14. World First Linux Watch
Welcome to the world of wearable technology! In this project, you will design and create the smallest Linux-based wearable watch using MicroLinux and the compact IndusBoard. This wearable watch not only tells the time but also provides the power of a Linux system on your wrist, allowing for various customizable features and functionalities.
15. Smallest 3D Scanning Device
In this project, we’ll integrate a Micro Time-of-Flight (TOF) sensor with the IndusBoard to create a portable device capable of scanning the environment and generating 3D images. The Micro TOF sensor will allow us to capture depth information and create a comprehensive 3D representation of objects and surroundings.
16. A Supercool Wearable Badge
In this project, we’ll create a smart wearable badge using a colour LCD display connected to the IndusBoard. This wearable badge can be programmed to display logos, texts, smileys, and more, allowing you to customize your look and express yourself in a unique way.
17. Wearable WiFi Hacking Device
Connect the GC Round Smartwatch display with a CTS /XPT display drive that is sized of coin and indusbaord with a coin-sized board and program it to scan the wifi, RF signals, DO wifi ghosting, de-authentication and other wifi hacking and signal jamming. Enjoy playing with ethical hacking
18. Wearable Home Control Switch
In this project, we’ll design a custom smartwatch using the IndusBoard and connect it to various devices in your home and factory. This smartwatch will serve as a centralized control hub, allowing you to manage and monitor different systems with ease.
19. Micro-Sized Wearable Touch Display Home Controller Control Entire Home On Your Palm
In this project, we will create a wireless home automation system using a micro-sized touch display connected to the IndusBoard. The system will enable control over home lights and fans using relay modules and wireless switches, facilitating a convenient and modern approach to home automation.
20. Wearable Microphone
In this project, we’ll utilize the I2S input capability of the IndusBoard to capture audio input from a MEMS microphone and transfer it in digital format to a connected device. This setup will allow us to create a wearable microphone that can capture audio in real time and transmit it to another device for monitoring or recording purposes.
21. Smart Phone For Your Wrist
Hewe we will design world smallest wearable phone using the Indusbaod small-size coin form-factor combined with a GSM module like SIM900, SIM800L or other tiny GSM modules and using the Touch GPIO we can
22. An Amazing SPY Device
In this project, we’ll harness the power of the tiny-sized IndusBoard with I2S and camera support to create a miniature spy device capable of capturing audio and video in real time. This device can discreetly record audio and video footage for surveillance purposes, akin to the gadgets seen in James Bond movies.
Tracking Applications
23. Smallest Wearable GPS & Movement Tracking
In this project, we enhance the capabilities of the tiny-sized IndusBoard by integrating a small GPS module like BN880 or RYS8830 to create a compact location tracking device. By combining GPS positioning with the built-in accelerometer and magnetic compass sensors, we can design a versatile tracking device capable of accurate location tracking and dead reckoning.
24. Wearable Indoor Movement & Direction Tracking Device
In this project, we leverage the WiFi mesh and thread capability of the IndusBoard along with its built-in compass sensor to design an indoor movement and positioning system. By utilizing the Received Signal Strength Indication (RSSI) of WiFi signals and data from the accelerometer and compass sensors, we can develop algorithms to accurately determine the position of devices relative to each other within an indoor environment.
25. Super Small All-in-One Instrument (Compass, Scale, Level Meter etc).
In this project, we harness the capabilities of the built-in accelerometer, magnetometer, and temperature sensors on the IndusBoard to create a versatile multi-function instrument device. By leveraging the sensor data, we can develop various applications such as auto levelling, compass, digital protractor, and digital angle measurement, among others.
Health & Wellness Applications
26. Wearable Health Stickers
Using a small 3cm size and form factor we can easily integrate the MAX30100 and similar small-size sensor to measure eh SPO2, Heartbeat, Body temperature m and other health data and using the inbuilt wifi capability we can easily
27. Wearable EMG Sensor
In this project, we utilize small-sized EMG (Electromyography) sensors such as the DF Robot EMG sensor and Upside Down Labs EMG sensor, combined with the IndusBoard, to create a wearable EMG monitoring device. By integrating these sensors with the IndusBoard’s capabilities, we can monitor muscle activity and movements, and even use the device as a wireless EMG controller and Human-Machine Interface (HMI) device.
28. Wearable Health Sensor Node with AI ML
In this project, we leverage the WiFi and Thread capabilities of the IndusBoard, along with small-sized health sensors, to create a connected mesh node for monitoring multiple patients’ health data. By integrating various health sensors with the IndusBoard’s capabilities, we can collect real-time health data from individuals and transmit it to a central master node and IoT dashboard. Furthermore, by implementing AI and ML algorithms, we can analyze this data to predict abnormalities in health, such as the onset of diseases like COVID-19, influenza, flu, and other viruses.
29. Wearable Fall Detection Device
In this project, we leverage the built-in magnetometer compass sensor and accelerometer (ACC) sensor of the IndusBoard, along with AI and ML models, to create a wearable fall-tracking device. This device is designed to monitor the movement, sleep activity, and other relevant data of patients, particularly focusing on detecting and tracking falls. By combining sensor data with advanced algorithms, we can accurately detect falls in real time, providing timely assistance and intervention when necessary.
30. Wearable Patient Tracking Device With IOT Data Analytics & Telegram Notification
In this project, we aim to create a wearable patient tracking device equipped with IoT data analytics capabilities and Telegram notification integration. The device will continuously monitor the health metrics of patients and transmit the data to a centralized server for analysis. Additionally, it will utilize a Telegram bot running on the device itself to communicate with caregivers or healthcare professionals, providing real-time updates and notifications regarding the patient’s health status.
Robotics
32. Smallest Micro-Bot
In this project, we aim to create a swarm of small-sized microbots using the IndusBoard’s compact size, WiFi capability, and onboard sensors such as the compass and accelerometer. These microbots, inspired by ants or other small creatures, will be capable of autonomous movement and coordination within a WiFi mesh network. Additionally, they can be controlled remotely via WiFi commands, allowing for various applications such as surveillance, exploration, or interactive displays.
33 .Smallest micro-ROS Device
In this project, we aim to create the smallest Micro ROS (Robot Operating System) device using the IndusBoard. Micro ROS is a lightweight and modular implementation of ROS 2 designed for microcontrollers, making it suitable for small-sized robots and embedded systems. By leveraging the compact size and capabilities of the IndusBoard, we can deploy Micro ROS on the device and enable it to interact with ROS-based robots and systems seamlessly.
34. Smallest Microrobot With micro-ROS
In this project, we aim to develop the smallest micro robot powered by Micro ROS (Robot Operating System) running on the IndusBoard. By leveraging Micro ROS, we can equip the tiny robot with advanced robotic capabilities and enable it to interact with ROS-based systems seamlessly. Additionally, by integrating sensors such as Time-of-Flight (ToF) sensors, we can enhance the robot’s functionality to perform tasks like environment mapping in spaces inaccessible to larger robots.
Test & Measurement Applications
35. Smallest Speedometer
In this project, we aim to create the smallest speedometer device using the IndusBoard. The speedometer can be designed either as a smart dashboard for automobiles or as a standalone attachable device for bicycles or vehicles without built-in speedometers. By leveraging the capabilities of the IndusBoard, we can develop a compact and versatile speedometer solution that provides accurate speed readings and additional features such as fuel gauge monitoring.
36. Smallest Water meter
In this project, we aim to create the smallest water flow meter using the IndusBoard, integrated with a water flow sensor and IoT capabilities. The device will provide real-time monitoring of water flow percentages and display usage data on a customizable dashboard. Additionally, the project can be extended to monitor gas flow and other liquid flow applications. Leveraging the Thread and mesh network capability, the device can contribute to city-wide water management and analytics.
37. Wearable Signal Analyser
In this project, we leverage the IoT capability of the IndusBoard along with a round display to create a wearable WiFi and signal analyzer. The device serves as a compact and portable tool for analyzing WiFi networks and other wireless signals. Additionally, we program the board to function as a logic analyzer, providing users with the ability to monitor digital signals in real time.
38.Wearable & Portable Test & Measurement Instrument Device
In this project, we aim to create a compact and portable test and measurement instrument device using the AD9833 Signal Generator Module, GPIO capabilities, and a small display integrated with the IndusBoard. This device will serve as a versatile tool for electronics enthusiasts, hobbyists, and professionals to perform various tests and measurements on circuits and devices.
39. Wearable Voltmeter, Ammeter, Oscilloscope, Logic level analyzer
In this project, we aim to create a compact and portable test and measurement instrument device that can serve as an ammeter, voltmeter, logic analyzer, and oscilloscope. By utilizing voltage and current sensors, analog circuitry, and the capabilities of the IndusBoard, we can design a versatile device that meets various testing and measurement needs in a wearable and portable form factor.
40. Plug-n-Play IOT Electric Meter
In this project, we aim to create a super portable IoT electrical meter using the IndusBoard, current sensor, and voltmeter sensor. By leveraging the Wi-Fi capability of the IndusBoard, we can monitor the electrical consumption of individual devices wirelessly and visualize the data on an IoT dashboard. This project offers a convenient and compact solution for monitoring electricity usage in various applications.
41. Mesh Network Of Smart Meters (Trace electrical consumption across multiple appliances!)
The project aims to implement an IoT-based electrical metering system using IndusBoard microcontrollers to monitor and analyze electricity consumption in factories, multi-floor buildings, and apartment complexes. By integrating electrical meters with IndusBoard and establishing a centralized data collection and analytics platform, the system enables real-time monitoring, analysis, and optimization of energy usage.
Automotive Applications
42. Super-small Speed Dashboard For Bicycles
Create a compact speedometer and mapping device for bicycles using the round-touch display compatible with IndusBoard. This device will provide essential data to cyclists in a sleek, minimalist form factor, enhancing their riding experience.
43. Wearable Smallest Portable EV and Automobile Diagnosis Device
Using the CAN bus (TWI) interface of the IndusBoard, we can tap into the wealth of data provided by automotive sensors. By leveraging this capability, we can transform the IndusBoard into a powerful diagnostic tool for Electric Vehicles (EVs), automobiles, and other vehicles.
44. Connect The Automobile Data To IOT
Utilizing the IndusBoard’s CAN bus interface and WiFi capability, we can create a sophisticated system for remotely monitoring the health and performance of automobiles. By integrating the CAN bus for data acquisition and WiFi for cloud connectivity, this system offers real-time insights into vehicle health from anywhere with internet access.
45. Automobile Health Tracker
The Automobile Health Tracker is an innovative system that leverages the IndusBoard’s TWI (Two-Wire Interface) capabilities to connect with various sensors within the vehicle. By uploading the sensor data to create a dataset, this system utilizes AI and ML models to predict and analyze the health of the automobile. It acts as an IoT-based digital twin of automobile parts, identifying abnormalities and potential issues in advance.
46. Super-small Battery Monitor
The Super-small Battery Monitor is a cutting-edge solution designed to monitor electric vehicle (EV) batteries at a granular level. By connecting the EV battery to the IndusBoard and incorporating current charge and consumption sensors, this system enables real-time monitoring and analysis of each battery cell’s health and performance. It helps optimize battery usage for longevity and efficiency, ensuring the optimal performance of the EV battery over time.
47. Smallest LIDAR Environment Tracking Radar
The Smallest LiDAR Environment Tracking Radar leverages the compact size and advanced capabilities of the IndusBoard, combined with a tiny Time-of-Flight (ToF) sensor and a micromotor, to create a highly portable and efficient LiDAR-based environmental mapping device. This innovative solution enables accurate and real-time tracking of surroundings, making it ideal for various applications, including robotics, navigation, and environmental monitoring.
Other Projects You Can Try
48. World’s Smallest Audio Bugging device
You can attach a micro-sized MEMS microphone with I2S pin of the device and then stream the data to the network and make the smallest Audio Buging device to spy on someone
49. World First Watch With Functional Generator
In this project, we aim to address this challenge by leveraging the compact size and versatility of the Indusbaord, along with an AD signal generator module, to create a small and affordable functional generator. By combining these components, we can develop a portable device that can generate different types of waveforms, such as sine, square, and triangle waves, with adjustable frequency and amplitude.
50. IoT Mesh Environment Gas Monitor
Utilizing the thread and mesh capabilities of the Indusbaord, we can deploy multiple sensors across different locations and establish a network for collecting real-time data on pollution levels. This networked approach allows us to create detailed maps of pollution hotspots and identify areas that require immediate attention or intervention.In this project, we’ll explore the integration of gas sensors for detecting harmful gases such as carbon monoxide, nitrogen dioxide, and particulate matter. Additionally, we’ll incorporate pollution sensors to measure air quality indicators like PM2.5 and PM10 levels, ozone concentration, and volatile organic compounds (VOCs).
51. Telegram Sensor
. By integrating sensor nodes with a Telegram bot, we can establish a seamless communication channel for receiving sensor data and monitoring environmental conditions from anywhere in the world.