ESP32 ItsyBitsy is in final testing zOne!

OK, after a long hiatus, the ESP32 Itsy Bitsy prototypes are built and ready for testing! We first designed this board Feb 20, 2020 - and it's been waiting oh so patiently for its turn. The ESP32 Pico module packs 8 MB of flash and 2 MB of PSRAM. Despite its small size this board can handle fairly complex programs. This board is very small but has lots of pins, with a USB-serial converter, NeoPixel, reset and user button, Stemma QT connector, and a 5V-logic output specifically for driving NeoPixels. to do my final 'all in one' test we're reading temperature and humidity from an I2C sensor, sending it to IO, then reading back the onboard NeoPixel color from the dashboard. It's an excellent way to make sure the whole thing is working the way we like. Last up, we'll do a low-power test, and then it'll be ready for fabrication!

Here is Khushagra Mathur Submitted his Home Automation project and it's published now on our website. https://quartzcomponents.com/blogs/electronics-projects/safeghar-rfid-based-door-locking-system The SafeGhar consists of RFID based door locking system which can also be controlled by your phone using Bluetooth, the same concept can extended to garage doors. To ensure the safety of its residents, the prototype is equipped with flame sensor and earthquake detector which can save lives in case of an emergency. We can easily integrate them into our houses by using a simple relay and dc power supply instead of battery. As further upgrades, I would like the system to be integrated with IoT, a gas leak detector, automatic curtains and many more smart systems. 🏆 Check out now: https://quartzcomponents.com/blogs/contest

Introducing the S2 Mini V1.0.0 ESP32-S2 Development Board!

Looking to power up your next IoT project? Meet the S2 Mini V1.0.0 – a compact yet powerful Wi-Fi development board that's perfect for all your tech experiments.

Key Features:

4MB FLASH for plenty of storage

2MB PSRAM for speedy performance

Wi-Fi connectivity to take your projects online

Ideal for home automation, wearables, and DIY smart gadgets!

Type-C USB Interface: Easy and convenient connectivity.

27 Digital I/O Pins: Supports interrupt, PWM, I2C, single wire ADC, DAC, SPI, UART, and USB OTG.

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Duo WUJUD (Souad Mani & Romain Papion), Empreinte carbone sur le Lieu Unique, les ateliers de Bitche, Nantes, Juillet 2023. œuvre interactive en réseau, Nantes, Live en continu du 6 Juillet au 16 Juillet. Oeuvre In Situ réalisée dans le cadre de l’exposition Afèq آفاق, les lignes que nous tissons, en flux continu pendant 10 jours. L’objet connecté Motty était programmé par le langage Arduino pour capter les données du taux de carbone avec les capteurs externes et les envoyer via usb à l’ordinateur, le patch Pur data logiciel de programmation visuelle récupérait ces données et lisait simultanément le fichier vidéo et le diffusait sur le vidéoprojecteur en transformant l’image selon des paramètres d‘effet qui correspondaient à la température et le taux de co2 captés dans le lieu des Ateliers de Biche. Au delà du seuil de 24 degrés l’effet de transformation sur l’image se déclenchait et son intensité varie en fonction du taux de co2 dans l’air ambiant du black cube. Cette œuvre générative et ubiquitaire s’inscrit dans une démarche de recherches-créations autour de l’image connectée, la figure de l’œuvre « entrain de se faire » et la relation entre le climat et le motif.

Raspberry Pi 5 Install Ubuntu Server | Manual WiFi Configuration with Pu...

What is AI - Artificial Intelligence?

Understanding - Artificial Intelligence

Artificial intelligence (AI) is the science of making machines capable of performing tasks that typically require human intelligence.

AI can execute functions that are considered "smart" such as recognizing patterns, making decisions, and judging situations similarly to human beings.

One of the key advantages of AI technology is its ability to process large amounts of data in ways that are beyond human capabilities.

How Does AI Work?

Artificial intelligence systems operate using a combination of algorithms and data. The process generally involves the following steps:

Data Collection: A massive amount of data is gathered from various sources. This data serves as the foundational input for the AI system.

Algorithm Application: Mathematical models, known as algorithms, are applied to this data. These algorithms are designed to identify patterns within the data.

Training: In a process called training, the AI system uses the collected data to learn and improve its ability to recognize patterns and make predictions. The system adjusts its parameters based on the input data to enhance its accuracy and efficiency.

Through continuous training and refinement, AI systems can improve their performance over time, becoming more adept at understanding and processing new data.

Smart Energy Meters and AI

One of the practical applications of AI is in the development and implementation of smart energy meters. Smart energy meters utilize AI to optimize energy consumption and improve efficiency in the following ways:

Data Analysis: Smart energy meters collect vast amounts of data regarding energy usage patterns. AI algorithms analyze this data to identify trends and anomalies.

Predictive Maintenance: By recognizing patterns and predicting potential issues before they occur, AI can help in the maintenance of the energy grid, preventing outages and reducing downtime.

Energy Optimization: AI can provide recommendations for optimizing energy usage, such as suggesting the best times to use certain appliances to take advantage of lower energy rates or reducing consumption during peak hours.

Consumer Insights: Smart energy meter equipped with AI can offer consumers detailed insights into their energy usage, helping them make informed decisions to reduce their energy bills and carbon footprint.

Conclusion

Artificial intelligence represents a significant advancement in technology, offering the potential to revolutionize various industries by performing complex tasks efficiently and accurately. By mimicking human cognitive processes, AI systems can enhance productivity, drive innovation, and open new possibilities for the future. The integration of AI in smart energy meter exemplifies how AI can be applied to practical solutions, promoting energy efficiency and sustainability in everyday life.

Our leading IoT Development solutions and the extensions of IoT devices offer a complete customer experience. Provide seamless data experiences to users at no cost by a dedicated team of highly skilled developers. Through the use of precise IoT devices business processes and decision-making can be enhanced and monitored.

The Internet of Things (IoT) is a revolutionary invention in the world of Computer Science making the lives of millions easier. This tech is one of the hottest trends in the data science.

Duo WUJUD (Souad Mani & Romain Papion), Empreinte carbone sur le Lieu Unique, les ateliers de Bitche, Nantes, Juillet 2023.

œuvre interactive en réseau, Nantes, Live en continu du 6 Juillet au 16 Juillet. Oeuvre In Situ réalisée dans le cadre de l’exposition Afèq آفاق, les lignes que nous tissons, en flux continu pendant 10 jours.

L’objet connecté Motty était programmé par le langage Arduino pour capter les données du taux de carbone avec les capteurs externes et les envoyer via usb à l’ordinateur, le patch Pur data logiciel de programmation visuelle récupérait ces données et lisait simultanément le fichier vidéo et le diffusait sur le vidéoprojecteur en transformant l’image selon des paramètres d‘effet qui correspondaient à la température et le taux de co2 captés dans le lieu des Ateliers de Biche. Au delà du seuil de 24 degrés l’effet de transformation sur l’image se déclenchait et son intensité varie en fonction du taux de co2 dans l’air ambiant du black cube.

Cette œuvre générative et ubiquitaire s’inscrit dans une démarche de recherches-créations autour de l’image connectée, la figure de l’œuvre « entrain de se faire » et la relation entre le climat et le motif.

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Realtime Wifi based IoT Temperature Humidity Data Logger

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Sensors and Actuators in IoT | Enabling Industrial Automation

IoT projects have more potential now than ever before. Sensors and actuators in IoT projects are key components of success. Sensors allow for machines in a system to receive data from the real world. On the other end, actuators allow the system to interact with the real world. As a result, the sensors and actuators available dictate the abilities of an IoT project. 

This is an exciting time because technological advancements in recent years have made these devices mainstream for a number of reasons. Mainstream adoption typically reduces production cost and makes these devices even more available. 

The sensors and actuators available today can work together with an enterprise software solution to enable almost any type of automation or remote monitoring. With basic knowledge of how these devices operate it becomes easy to see the potential an IoT solution can unlock. Join us as we explain various types of sensors and actuators in IoT projects. 

Bridgera consults with businesses to identify their pain points and discover the devices that can address them. From there, an IoT solution can be designed to stand alone, or integrate with your existing systems.

The Internet of Things (IoT) refers to a system of devices or objects that are connected using internet and are able to collect and share information over a wireless network without any human activities. Connecting up a majority of these extraordinary objects and including sensors to them make those devices digitally intelligent. The IoT is making the fabric of the world around us extra smarter and also greater responsive, merging the digital and physical worlds.  So, if you are a new comer, the good thing you can do is work on some of the Best IoT Projects.

What are the benefits of Internet of Things?

Internet of things (IoT) is a trending technology that makes our lives less difficult and happier. IoT has been all of the rage during the last couple of years. Therefore the considerable use of sensors and wi-fi connectivity among gadgets has expanded to the fashion. The boom brings in turn, easily to be had generation for hobbyists to discover. Also, connecting the whole thing to the Internet looks as if a good concept.

Internet of Things is growing faster with more devices getting connected each day. There are many areas of programs of the internet of things such as consumer, healthcare, business, transportation, security, leisure and plenty of others. The list of possible packages of IoT is endless.

IoT technology waves us to the world wherein we can connect, have interaction and command any tool using the net. It’s far a giant community of connecting objects and people. Additionally with this simple and strong technology, we can make Best IoT Projects to control any electronic gadgets at domestic or in industries.

Where can you find the Best IoT Projects?

Pantech eLearning is an Online Learning Service provider in Chennai. We are providing some of the Best IoT Projects. Our Internet of Things Projects guides you to the world of IoT and also its amazing applications.

Given below is the list of the Best IoT Projects we are providing:

Smart Helmet

In this system, there are two sensors for checking if the rider wears helmet and to check if he is drunken or not. It mainly aims in the prevention, detection and also reporting of accidents.

Blind People Navigation System

This projects aims to design and also implement a deep learning based vision assistant module for the visually impaired.

Smart Energy Meter

Environmental sensors embed with ZigBee router modules are distribute to different locations to collect the environmental data.

Wet and Dry Waste Segregation

Solid waste and also electronic waste materials can be segregate to automatically those are obtaining from each house in cities or town using IOT.

Automatic Ambulance Rescue System

The ambulance is controlling by the central unit which furnishes the scantest route to the ambulance and also controls the traffic light according to the ambulance location.

Smart Electronic Voting System Based On Biometric Identification

Soldier Position Tracking and Health Monitoring System

IoT based Smart Umbrella system

Card less transaction using biometric identification

Iot Management System For Smart City

Visit our Website and Book your Projects Now.

IOT in Manufacturing- A Complete Guide of Use Cases and Benefits

Have you ever heard about the Internet of Things, also known as IoT? You can find several definitions of IoT, but let’s look at what it means at its core. With IoT, people can connect to digital networks and the Internet using devices like smartphones and computers to share information, have conversations, buy products, and so on. However, Industrial IoT uses the same basic tenants and implements them into machinery to increase efficiency in the manufacturing process.

Before we deep dive into Industrial IoT and its benefits, it may be useful for us to first elaborate on the distinctions between IoT and IIoT.

Internet of Things (IoT)- The Internet of Things is a network of daily devices, appliances, and other objects equipped with computer chips and sensors that can collect and transmit data through the Internet. Most of us use IoT every day.

Industrial Internet of Things (IIoT)- Industrial IoT works in a network of sensors to gather critical production data and uses cloud software to transform this data into valuable insights for the efficacy of manufacturing operations.

The two definitions may look similar, but IIoT is specifically related to the world of manufacturing.

How Does Industrial IoT Work for the Manufacturing Sector?

IIoT unified equipment gives valuable real-time data, which permits manufacturers and machine operators to make informed decisions. The process looks a little something like this:

Sensors collect the data from the machine and send it forward to the cloud

The data is passed to the quality monitoring system

The analyzed data is sent to the end-user

Industrial IoT in Manufacturing:

Here we will elaborate on the different factors driving the expansion of IIoT in the manufacturing industry. You may notice that these factors work in conjunction with each other, and this is why manufacturers are now more inclined to work with IoT than they were in the past..

Reduce Repair Cost: With the Industrial Internet of Things, companies enhance resource use, manage inventory better, decrease machine downtime, capably use energy, reduce overall operational costs, and make new sources of revenue. Smart inventory management solutions can save from 20 to 50% of an organization’s inventory carrying costs.

Shorter Time to Market: Faster and more effective manufacturing and supply chain operations allow for a more efficient product cycle time. For example, Harley Davidson leveraged IIoT to reconfigure its York, PA manufacturing facility and managed to reduce the time it takes to produce a motorcycle from 21 days to 6 hours.

Automated Facility Management: IIoT-connected sensors can monitor conditions like temperature, moisture, vibrations, and more. With automated facility management solutions, manufacturers can now classify and maintain the conditions for equipment to work at an ideal efficiency.

Improved Safety: IIoT helps to make sure a safer workplace. Paired with wearable gadgets, IIoT allows managers to monitor workers’ safety and limit hazardous activities. As well as ensuring worker’s safety, IIoT addresses safety problems in potentially risky environments. For example, in the oil and gas industry, IIoT is applied to monitor gas leakages as it travels through the pipe network and prevent potential injuries.

Use Cases of Industrial IoT in Manufacturing:

Various IoT projects deal with facility and asset management, security and operations, logistics, and customer servicing. Let’s take a plunge into the use cases for manufacturing:

Predictive Maintenance: With the use of sensors, cameras, and data analytics, managers can predict when a piece of equipment will falter. By leveraging streaming data from sensors and devices to rapidly assess current conditions, identify warning signs, deliver alerts, and automatically trigger proper maintenance procedures, IIoT turns maintenance into a quick, automated task.

Asset Tracking: According to a study, 85% of manufacturing companies around the world are aware of asset efficacy practices, however only 15% of those surveyed have executed such measures at a systematic level. The goal of asset tracking is to permit an enterprise to easily detect and monitor key assets, including along the supply chain to enhance logistics, maintain inventory levels, prevent quality issues, and detect robbery.

Connected Operations Intelligence: This use case empowers companies to connect disparate silos of operational data (e.g. manufacturing, supplier, and logistics) into unified, real-time visibility across various systems, people, and assets to make better-informed decisions and improve operational performance.

Operations Management Improvements: This other use case permits companies in the manufacturing sector to swiftly improve how complex processes are monitored, managed, and optimized in order to accelerate smart factory and ‘Industry 4.0’ initiatives. This can be accomplished by extending existing equipment and ERP/MES systems with connectivity, interoperability, mobility, and crowd-sourced intelligence.

Wrap-Up:

Industrial IoT is digital transformation on the grandest scale, and at Dash Technologies, we have the expertise to lead this industrial evolution. With years of experience in IIOT and a wealth of knowledge, Dash proudly stands as the best IoT app development company for your IIOT needs.

If you would like to implement industrial IoT solutions into your operations, please contact us!

What are the most effective methods for managing power factor in your system?

`What's Power Factor?

In an energy management system, the power factor gauges the efficiency of electrical power usage. It is defined as the ratio of real power to apparent power (the total power supplied). A high power factor signifies efficient use of electrical power, which minimizes energy losses and enhances system performance.

Beer is active power (kW)—the useful power, or the liquid beer, is the energy that is doing work. This is the part you want.

Foam is reactive power (kVAR)—the foam is wasted power or lost power. It’s the energy being produced that isn't doing any work, such as the production of heat or vibration.

The mug is apparent power (kVA)—the mug is the demand power, or the power being delivered by the utility.

Understanding Low Power Factor?

A low power factor is primarily caused by inductive loads, including motors, transformers, and lighting ballasts, which draw reactive power. This reactive power is essential for generating and sustaining magnetic fields but does not contribute to useful work, increasing apparent power and consequently lowering the power factor. Moreover, harmonics from nonlinear loads, such as electronic devices and variable frequency drives, further reduce the power factor by introducing additional reactive power.

Benefits of High Power Factor

A high power factor decreases the apparent power and current drawn from the source, which can lower energy bills as some utilities impose charges for low power factor or provide incentives for maintaining a high power factor. It enhances voltage regulation and stability, increases system capacity and efficiency by reducing losses and heating, and lessens the effects of harmonics, thereby improving overall power quality.Benefits of Power Factor

Measuring Power Factor

Power factor is measured using a power meter or analyzer that monitors real, reactive, and apparent power, or with a power factor meter for direct readings. Measurements should be taken at various points in the system and at different times to account for load variations.

Correcting Low Power Factor

The most effective way to correct a low power factor is by installing power factor correction devices such as capacitors or synchronous condensers. These devices provide reactive power locally, reducing the flow of reactive power and improving the power factor. Depending on the load characteristics and desired power factor levels, they can be installed centrally or near specific inductive loads.

Controlling Power Factor Correction Devices

Power factor controllers, which can be either manual or automatic, are used to manage correction devices. Manual controllers rely on human adjustments based on meter readings, whereas automatic controllers use sensors and microprocessors to adjust devices. Automatic controllers can also be programmed to optimize performance under varying load conditions.

Optimizing Power Factor Management

Optimizing power factor management requires balancing cost, performance, maintenance, and safety. Essential practices include regular evaluation and adjustment, proper maintenance to prevent overloading and overheating, and compliance with utility codes and standards. This comprehensive approach ensures improved efficiency, stability, and cost-effectiveness of your electrical system.