Kiran Kumar, Author at AI, ML and IoT application development company | Fusion Informatics https://www.fusioninformatics.com/blog/author/kiranfusion/ Let's Transform Business for Tomorrow Wed, 23 Nov 2022 18:12:31 +0000 en-US hourly 1 https://wordpress.org/?v=6.5.5 https://www.fusioninformatics.com/blog/wp-content/uploads/2014/02/favicon.png Kiran Kumar, Author at AI, ML and IoT application development company | Fusion Informatics https://www.fusioninformatics.com/blog/author/kiranfusion/ 32 32 IoT: a Technological Advancement for Oil & Gas https://www.fusioninformatics.com/blog/iot-technological-advancement-for-oil-gas/ https://www.fusioninformatics.com/blog/iot-technological-advancement-for-oil-gas/#respond Wed, 23 Nov 2022 18:12:26 +0000 https://www.fusioninformatics.com/blog/?p=9451 In the fiercely competitive world of the oil and gas sector, the corporations strive to be cost-effective while…

The post IoT: a Technological Advancement for Oil & Gas appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
In the fiercely competitive world of the oil and gas sector, the corporations strive to be cost-effective while also remaining profitable and sustainable.

In the oil and gas industry, the Internet of things (IoT) refers to a network of physical objects with remote sensors, machine learning, and the cloud that are deployed in the upstream, midstream, and downstream operations for easy data collection, processing, and leveraging that data to streamline and simplify processes and supply-chain visibility, as well as drawing insights from that data for more quickly and accurately making decisions.

What Is IoT in the Oil and Gas Industry?

The global IoT market for oil and gas is projected to reach $43.48 billion by 2024, growing at a CAGR of 21.86% between 2019 and that year.

IoT adoption has revolutionized the oil and gas industry due to the inherent advantages of granting access to real-time information across remote sites, making operations efficient and safer for people.

The oil and gas industry’s rapid adoption of IoT has raised operational productivity by lowering manual labor.

It allows for real-time data monitoring of the machinery, as well as production optimization and growth.

The safety and security of resource extraction and distribution have dramatically improved as a result of IoT technologies that automate the processes, greatly lowering the possibility of human error.

This method also helps to boost production productivity by 6-8% by utilizing the data analytics that go along with it.

iot-development

How IoT is transforming the Oil and Gas Industry

The oil and gas sector is making progress toward achieving the potential of IoT by making it considerably simpler for businesses to do their regular business. Here are some ways that IoT adoption in oil and gas operations is transforming the sector:

Drilling management

Drilling is frequently utilized in oil and gas operations. Increasing drilling efficiency turns out to be a benefit of the Internet of Things. The situation becomes riskier as the rig descends deeper. Rig workers must take exact measurements when drilling for oil. The inadequate technique is the cause of deep-water drilling errors.

IoT devices help lower risks and successfully perform challenging tasks. Smart gadgets can also alert worried employees well in advance of potential drilling issues using the data obtained by sensors.

Monitoring of pipelines

One of the biggest problems the oil and gas business has to deal with is pipeline leaking. The corporation suffers significant monetary, environmental, and reputational losses. IoT supports the pipeline system’s pipes, pumps, and filter monitoring. Without IoT, businesses are forced to rely on human resources to regularly do essential inspections and maintenance.

IoT can monitor pipelines in real time, reducing the need for manual checks. Real-time data can considerably reduce the most significant risks associated with pipeline leakages and other undesirable scenarios. Employees can be rapidly used to address problems that pose a severe threat.

Another benefit of IoT deployment in the oil and gas industry is the efficient management of personnel and the facility. Employees won’t be required to do maintenance until an anomaly is discovered.

As a result, routine human inspection is no longer necessary, and human resources may be managed successfully. IoT can also be used for efficient material management and planned shutdowns.

Refinery surveillance

IoT supports monitoring several performance indicators, including pipe pressure and flow rate. Every refinery component needs to be measured, and a lot of data is collected about it. If done manually, this takes a lot of time and costs the organization a lot of money. Real-time measurements are required in some situations.

For instance, a specific valve may need to be controlled based on the flow rate being monitored at another location. In this scenario, a change in flow rate would necessitate immediate control of the valve. The IoT enables more precise data collection at locations inaccessible to human resources.

More data can be obtained by installing sensors at various locations that are challenging for personnel to access. This facilitates the refinery’s constant observation. A report claims that effective data use can increase oil and gas businesses’ production by 6% to 8%.

Offshore monitoring

The majority of offshore oil and gas production occurs in challenging circumstances. There aren’t many communication networks accessible at these rigs. It becomes difficult and expensive to monitor equipment such as pressures, temperatures, and other variables.

IoT supports overcoming these obstacles to provide a trustworthy monitoring solution. With LPWAN, a huge number of monitoring points can be connected. This implementation offers a cost-effective solution for keeping tabs on offshore oil and gas rigs.

Oil wells can be linked to numerous leak detectors spread out across a large area. These detectors are capable of real-time data transmission to a central point. The data can then be utilized to remotely monitor the drilling and oil extraction process.

Cargo shipping

For fleet managers, real-time ship and fleet monitoring is a crucial component. Monitoring of cargo ships carrying oil and gas is comparable to offshore monitoring. The workers must use satellite internet because there is no connectivity at the ocean.

If the workers require information from the ship’s surroundings, their options are limited. The amount of data from these ships is enormous. IoT makes it simple to collect data from these points. LPWANs offer simple monitoring alternatives for areas of a ship that crew members don’t frequently visit.

Sensory monitoring tools offer simplicity and safety while collecting data from difficult-to-reach locations. Due to immediate needs, some cargo ship components must be wired, while some non-operational components are exempt from this need.

Health & safety

Oil and gas operations are typically found in hazardous and remote locations. For the personnel there, the surroundings at these places are hazardous.

IoT solutions provide remote monitoring of equipment and operations, doing away with the requirement for workers to physically visit a spot unprepared for the situation. With the help of networked sensors and picture vision, the situation may be precisely characterized, and the best course of action can be decided.

IoT has the potential to significantly reduce worker fatalities and injuries in the oil and gas sector. The oil and gas industry fatalities are declining, and IoT can help them stay that way.

Controlling Carbon footprint 

Implementing IoT in oil and gas operations has improved the sector’s efficiency. IoT technology shows advantages in terms of money and the environment. The facility’s carbon emissions can be significantly reduced with efficient administration and operation.

It helps lessen the harmful effects of drilling and oil extraction on the environment. Thus, oil and gas companies can uphold their moral duty to conduct business in a way that doesn’t harm the environment.

Supply-chain management (SCM)

The oil and gas industry has long had difficulty planning and optimizing stockpiles. Effective planning and scheduling are made possible throughout the supply chain by IoT.

Refineries can utilize sensors to determine the sorts of crude oil that are delivered and the exact location where the barrels are stored.

These facts can be used to make decisions on operations and production. Thanks to the adoption of IoT, the oil and gas supply management chain will be more open and genuine.

Supply Chain Challenges in E-Commerce

Growth in revenue

Recent years have seen an increase in rivalry for oil and gas companies. The best companies are looking for ways to raise productivity and sales. Short-term cost-cutting tactics may hinder a company’s long-term prosperity. If businesses invest in IoT, they will be more successful in reducing their operating costs.

IoT technologies could foresee demand and supply, boost productivity, and streamline pricey procedures. By minimizing wasteful capital and human resource consumption, businesses can significantly cut operational costs.

In Summary

Developing ‘smart’ oil and gas will continue to be a protracted, dynamic process. IoT solutions are moving from manufacturing facilities to boardrooms. Thus, the usage of IoT in the oil and gas industry extends beyond just the operations of the plant and rig and encompasses many, if not all, areas.

A new era of efficiency and profitability for participating organizations is being ushered in by the IoT and the data produced by these devices.

The post IoT: a Technological Advancement for Oil & Gas appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/iot-technological-advancement-for-oil-gas/feed/ 0
How and Why to Transform Asset Management with IoT https://www.fusioninformatics.com/blog/transform-asset-management-with-iot/ https://www.fusioninformatics.com/blog/transform-asset-management-with-iot/#respond Fri, 21 Oct 2022 07:29:56 +0000 https://www.fusioninformatics.com/blog/?p=9417 The Internet of Things (IoT) is fundamentally an ecosystem of a network of physical objects that have been…

The post How and Why to Transform Asset Management with IoT appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
The Internet of Things (IoT) is fundamentally an ecosystem of a network of physical objects that have been given sensors, software, and other technological components to enable online communication with other systems and devices.

IoT is quite promising and has been performing spectacularly in a number of industries. Asset management and energy are currently benefiting from IoT.

Asset management is one distinctive element that gives a manufacturing company a competitive edge. Driving superior business operations is the development of IoT-based innovations for asset management.

The three main factors that affect a manufacturing entity’s overall equipment effectiveness (OEE) are availability, performance, and quality.

IoT-powered solutions will assist in monitoring and identifying specific issues, such as missing components, defective regions, and the need for improvement. The company can reach 80% OEE by making these improvements.

Why is IoT adoption crucial for businesses?

As more industries recognize the benefits of IoT, its adoption has exploded. IoT is one of the most popular solutions for businesses considering or now through digital transformation.

Organizations favor IoT-based asset management over traditional asset management because it offers many practical services. IoT-based asset management systems enable efficient asset performance and health monitoring.

Based on the massive amounts of data generated by the smart grid equipment and kept in an asset management system, these management solutions offer crucial insights.

These insights are beneficial since they help with asset maintenance, asset health predictions, agility and responsiveness, operational cost reduction, increased asset reliability, performance, etc.

IoT adoption has accelerated since its inception due to the technology’s growth and development to the point where its installation costs may be reasonable. IoT’s predictive maintenance analysis optimizes asset repair and replacement.

IoT asset management systems are better since they use fewer laborers and follow more automated processes. Asset management technologies based on the Internet of Things (IoT) that simplify tracking strategic costs may also help businesses make sound financial decisions.

Top 10 AI Innovations in Manufacturing Industry

These benefits play a significant role in the growing use of IoT in the industry.

The role of IoT in asset management

IoT brings new advantages to asset management since it can create a network of physical objects and connect it to the cloud network. When businesses adopt IoT, the solution combines sensors with all assets and gadgets.

Software, sensors, and networks support these devices, and data is captured and transferred from all sources to a centralized cloud network.

Centralized systems use artificial intelligence and machine learning techniques to analyze the data and produce insightful findings. IoT-based asset management systems allow for increased investment returns, among other benefits.

These are accurately referred to as the next generation of asset management systems.

IoT-Based Asset Management: Key Trends

IoT-powered smart asset management is an advancement above traditional processes. It achieves far more than the conventional methods did. The “one strategic system” created by these cutting-edge smart solutions combines processes and workflows.

Intelligence is contributed via real-time data analysis, alarms, dynamic edge asset control, proactive maintenance, real-time visibility, and automated operations. The following are some of the significant advancements in IoT-based Asset Management:

  • Asset Lifecycle Management: Detailed documentation of asset portfolios that maximize the revenue generated by different assets throughout their lifecycle.
  • Remote Asset Tracking: IoT leverages cloud-based technology to enable employees to access data on numerous assets from any location and at any time.
  • Asset Workflow Automation: Simple and repetitive operations are handled by advanced automation capabilities to quicken business processes, reduce errors, and increase team productivity.
  • Asset Health/Condition Monitoring: Cost-effective and preemptive approach of assessing the numerous asset health indicators, with the risks, events, policy execution history, and suggestions for better asset health.
  • Predictive Asset Maintenance: Understanding the performance threshold can help you keep an eye out for asset shutdowns and downtime, and you can arrange backup procedures accordingly.

How the IoT can enhance efficiency and save energy costs

We’re at the start of a new era of operational efficiency thanks to the real-time communication and control provided by IoT. In all industries, with ever-evolving technology, continuous improvement and optimization are the only ways to compete successfully in this cutthroat market.

With the help of the Internet of Things, we can gather important, trustworthy real-time data and turn it into knowledge that businesses can use. With the help of this quality, organizations may identify inefficiencies, bottlenecks, excessive resource consumption, etc., and make the best decisions to boost operational efficiency.

As organizations across various industries become more responsive to sustainable energy use practices, IoT, with its smart sensors, actively contributes to putting the smart in smart energy management and cutting energy expenses.

IoT helps businesses use resources more efficiently, reducing unnecessary expenditures and cutting energy costs while improving operational performance. Energy expenditures are significantly reduced due to IoT adoption across all industries, and industrial production has increased significantly.

Metrics to Track the Efficacy Of Asset Management With IoT

  • Overall Equipment Effectiveness (OEE): OEE is the most used statistic for monitoring plant efficiency and is a component of every plant manager’s KPI. It determines the proportion of the whole process spent in highly productive manufacturing. Manufacturers might learn a lot about how to maximize productivity by tracking OEE.
  • Asset uptime and downtime: One of the most critical measures to lower maintenance costs is asset uptime and downtime. The goal is to thoroughly analyze the data to improve uptime, decrease downtime, and achieve optimal use.
  • Cost-effectiveness and Asset Optimization: Preventive maintenance reduces OpEx, and capital expenditures (CapEx) are decreased by lengthening the lives of the equipment and making better use of the assets.
In Summary

Asset management is made possible through IoT-based asset tracking, which boosts a company’s operational efficiency. It can also be used to develop new business models for monitoring the performance of assets over the course of their whole lifecycle. Additionally, it aids businesses in finding areas where they can reduce costs.

Adopting technology that enables you to make more sensible and optimal business decisions in light of the market’s rapid evolution is crucial.

Asset management is an essential component of any business, so one must embrace IoT technologies enabling organizations to maximize the performance, availability, and quality of their assets and resources.

The post How and Why to Transform Asset Management with IoT appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/transform-asset-management-with-iot/feed/ 0
Best Practices for Inventory Counting: Automating Manual Tasks https://www.fusioninformatics.com/blog/best-practices-for-inventory-counting-automating/ https://www.fusioninformatics.com/blog/best-practices-for-inventory-counting-automating/#respond Wed, 12 Oct 2022 10:33:56 +0000 https://www.fusioninformatics.com/blog/?p=9406 Many businesses conduct regular physical inventory counts as part of their annual financial accounting practices. Large companies with…

The post Best Practices for Inventory Counting: Automating Manual Tasks appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
Many businesses conduct regular physical inventory counts as part of their annual financial accounting practices. Large companies with thousands of items typically shut down for a week or more to perform a complete physical inventory count.

Cycle counting is an inventory management method that enables you to count products or items in a particular warehouse location without interrupting operations to perform a full physical inventory.

Inventory counting is a critical process in warehousing because it provides a clear picture of items on hand, aids in maintaining optimal inventory levels, and allows for data-driven inventory forecasting. When done manually, inventory counting is a time-consuming and error-prone process.

The following are some of the most common issues that customers encounter when automating inventory counting:

  • Inventory count procedures and matching of insights gained to inventory records take time.
  • Full inventory counting may cause delays in certain manufacturing or warehouse operations.
  • Employees are diverted from routine and strategic tasks that cannot be automated.
  • Inventory counting is a time-consuming process prone to human error and bias, impacting inventory reports and balance sheets.
Journey of Business Automation

Inventory counts can help you improve your inventory management.

You already know how important it is to keep track of your inventory, whether you’re new to the game or a seasoned professional. That doesn’t make the task any less daunting or enjoyable.

In this article, we will discuss how to make stock counting easier by covering the following topics:

  • What exactly is an inventory count?
  • Why is it significant?
  • Inventory Counting Types
  • Using technology to count inventory

What is an inventory count?

An inventory count, also known as a stock count, is the process of tracking the inventory items in your warehouse that are available for sale. There are several methods for counting inventory, which best depend on factors such as the size of your business, frequency of counts, automation, and other factors.

5 Technologies to Simplify your Warehouse Management

Warehouse Management is not just how much space you got but how you use it! Definitely, technologies play a key role in shaping your business and managing your warehouse. What are the top technologies you should adopt to manage your warehouse? Let’s discuss!

Why is it significant?

Inventory counting is essential because it informs you of the amount of inventory on your shelves at any time. However, there are various other reasons why stock counts must be performed regularly.

A few of those include:

  • Avoiding stock outs or overstocking: Maintaining a regular inventory count gives you more information for demand forecasting-better planning results in optimized stock levels, which means less revenue lost.
  • Recognizing and preventing loss: Knowing what’s on your warehouse shelves allows you to identify when stock has passed its shelf life and when some of your inventory goes missing.
  • Improved accuracy: Knowing your stock levels provides greater clarity for your entire supply chain.

Inventory counting is essential because it tells you how much inventory is on your shelves at any time. However, there are numerous other reasons why regular stock counts are necessary.

Types of Inventory Counts

As previously stated, the method you use to count your inventory can be influenced by various factors. Among the most common methods of inventory counting are:

Periodic inventory: Periodic inventory is a method used by businesses just starting with inventory control. It entails counting the entire stock on a weekly or monthly basis. While you will have an accurate count at the end of the day, those figures will not last long.

Inventory cycle counting: Inventory cycle counting is used when periodic counts become too frequent. It entails counting a portion of your inventory each day for a month to count the entire stock. These counts can identify discrepancies and trends in damage, shrinkage, and spoilage.

ABC counting: This method employs cycle counting but incorporates more data. This entails prioritizing your products based on their price and popularity. “A” items are the top 20% of items that sell the fastest and are the most valuable. The bottom 20% of items are “C,” and everything in between is “B”.

“A” items are counted the most frequently, such as daily or weekly, “B” items less regularly, and “C” items the least often. This makes managing your stock counting calendar easier while maintaining a more accurate picture of your inventory levels.

Just-in-time inventory: Just-in-time inventory (also known as JIT inventory) is a method for when a supply chain is in sync. It coordinates receiving raw materials from the supplier as a customer purchases it, reducing waste in the form of inventory housing costs. However, this is risky because a single hiccup in the supply chain can disrupt the entire process.

Best Practices for Inventory Counting through technology

Conventional manual inventory counts are performed on paper by hand. However, this procedure is time-consuming and prone to human error. You can use technology to speed up and improve the accuracy of stock counts.

The following are some examples of inventory counting technology:

  • Barcoding/RFID
  • Lot control
  • Enterprise resource planning (ERP) software
Barcoding/RFID

One method of tracking inventory levels and movements is barcodes, RFID, or QR codes. Although some manual labor is involved in this automated process, inventory management is automated. To begin, determine whether your product already uses a format that you can use, such as UPC codes. Then decide where you want to add barcodes and what type to use.

Lot control

By this method, You can easily locate and track items for details like expiration dates, recalls, country of origin, materials, and more by assigning a lot ID to each item in your inventory. Lot control uses the ID to ensure regulatory compliance by, among other things, shipping items that cannot be combined separately, identifying hazardous materials, and restricting sales to licensed customers.

Enterprise resource planning (ERP) software

As your inventory system improves in stock counting, use ERP software to track your inventory. Automated counting tools are not only available but also the norm. Cycle counting is performed regularly by ERP software; The results are then used to guide the rest of your inventory process. Furthermore, your inventory data is always up to date and available across your organization, ensuring that everyone in the supply chain is on the same page.

In summary

Most of you reading this might already do stock counts regularly. Or perhaps your company is growing, and your current method of stock counting is no longer adequate. Regular, pre-determined inventory counts are critical to business and revenue growth through technology or a different method of calculating stock levels.

The post Best Practices for Inventory Counting: Automating Manual Tasks appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/best-practices-for-inventory-counting-automating/feed/ 0
Select The Right OS for IoT Devices https://www.fusioninformatics.com/blog/select-right-os-for-iot-devices/ https://www.fusioninformatics.com/blog/select-right-os-for-iot-devices/#respond Tue, 20 Sep 2022 09:49:38 +0000 https://www.fusioninformatics.com/blog/?p=9395 In the world of internet-of-things (IoT) devices, operating systems are critical. They’re what allow these devices to communicate…

The post Select The Right OS for IoT Devices appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
In the world of internet-of-things (IoT) devices, operating systems are critical. They’re what allow these devices to communicate with each other and with the outside world. But choosing the right OS isn’t as easy as it looks: you’ll need to consider a host of factors that will determine how well your project succeeds.

So in this article, we’ll outline some guidelines for choosing an IoT OS so you can make sure your device does all it needs to do for years to come.

IOT-Organizations-1

Why Select the right OS for IoT devices?

Selecting the right operating system for your IoT devices can be a challenge. There are many different operating systems to choose from, used in a wide range of applications, from embedded computing to mobile devices and even desktop systems.

OS selection is critical to the success of your project and should be done with care. The OS you choose will have a big impact on the success of your project, so it’s important that you make an informed decision about which one is best suited to meet your needs.

Get IoT OS Selection Right

IoT OSs come in many forms, and are available for many types of devices and applications. IoT OSs are available as open source, commercial and proprietary. Open source IoT OSs can be downloaded for free or used on a trial basis.

Commercial IoT OSs require payment to use the software but usually offer additional services such as support and training, while proprietary IoT OSs are often provided at no cost to end users.

Open source IoT operating systems can be customized by developers according to the needs of end users. These operating systems are also typically supported by a community of enthusiasts who may share their work online using websites like GitHub or other channels like IRC chat rooms or forums where they discuss ideas with one another about how best to improve their current product offering based on user feedback..

How well does the OS match the needs of the project?

  • Open source: An open-source operating system is one that uses open-source software and has an open development model. It’s a good choice for projects that want to allow users to modify the code.
  • Flexibility: An IoT device needs to be flexible, meaning it can run on any hardware platform or form factor. This means it shouldn’t have heavy dependencies on hardware or other software components, and its architecture should be modular enough to allow for extensions and customizations by third parties without breaking the core functionality of the system.
  • Extensibility: You’ll want your device’s OS to support extensibility via plug-ins, APIs, drivers/stacks and frameworks so you can add new functionality as needed while maintaining backward compatibility with previous versions of your product line (to avoid customer confusion).
  • Portability: Your device needs portability so it can run across multiple platforms without needing significant adaptations at each step along the way—ideally in different environments (such as mobile vs. IoT), languages/environments (Java vs C++) etc.

What kind of performance is required from the OS?

The first question to ask is: what kind of performance is required from the OS? The answer depends on many factors, including how much RAM and storage you have available, what kind of processor you’re using, and how your device connects to the internet.

For example, if you’re building an IoT device with a small footprint that only needs to send data over Wi-Fi or Bluetooth once in a while (rather than constantly), then Linux or Windows may be sufficient for your needs.

In this case, performance won’t be as important as flexibility when it comes to choosing an operating system—you can use whichever OS fits best with your application’s development environment.

What level of security do the IoT devices need?

As the name suggests, high-security IoT devices are the ones that require higher levels of protection and security. High-security IoT devices are used in industries such as healthcare, defense and military.

These devices can be accessed by only authorized users within a particular organization or domain. For example: if you need to access your fitness band’s data from your smartphone then you will have to enter its PIN number first before accessing any information from it.

High-security IoT devices usually use authentication mechanisms such as tokens, certificates or digital signatures for authentication purposes.

They also provide strong encryption facilities so that only authorized people can access them remotely through the internet or wired networks (wired network is a dedicated physical connection between two sites).

How well can the OS scale to meet the future needs of the project?

The OS needs to be able to scale with your project. This is especially important if you’re building something that will grow, change, or have a long lifespan.

For example, if you have a web application and plan on adding mobile apps later on (or vice versa), it makes sense that the OS should work across all these platforms without having to rewrite your code base each time you add another platform.

This is also important if the project requires new features in order for it to function properly—for example, if there are new hardware features that need to be supported by the operating system before they can be implemented in your product (e.g., Bluetooth Low Energy).

Or perhaps there are software changes needed before they can be added into the OS itself (such as an update from Android Lollipop 5x to Android Marshmallow 6x).

Follow these guidelines to make it easier to choose an operating system for your internet-of-things devices.

To make it easier to choose the right OS for your internet-of-things devices, consider the following guidelines:

  • Choose an operating system that meets the needs of your project. For example, if you’re building a remote control for a drone, you’ll want one with special features for controlling drones.
  • Consider performance requirements such as CPU power and memory usage when deciding on an operating system. If you have a number of applications running concurrently on your device and each application has high demands for resources, then it may be best to select an operating system with more powerful hardware capabilities.
  • Think about security requirements such as authentication and authorization when selecting an operating system so that only authorized users can access certain parts of your application or device while unauthorized users cannot do so. You also need to ensure that sensitive data is encrypted in order to avoid any security risks associated with leaking confidential information over unencrypted networks like Wi-Fi or cellular networks (e.g., cellular).
  • Determine whether scalability is important so that your application can scale up in terms of usage volume over time without experiencing significant latency issues due to resource contention between multiple clients making requests simultaneously (this could happen if there aren’t enough CPUs available) or network congestion during peak hours when many people would like access simultaneously.
Conclusion

In summary, IoT devices require specific software to run their applications. It’s important to choose the right operating system for each device depending on its specific needs.

For example, if you’re working on an Internet of Things project that involves data exchange between devices or cloud storage of big amounts of data from multiple sources, then having a robust OS such as Linux or Windows 10 would be ideal for it.

On the other hand, if your project is more about controlling simple devices like switches and sensors with limited memory capacity (such as Arduino boards), then using ARM processors like Raspberry Pi would be more appropriate because they are much cheaper than PCs/Macs yet still powerful enough to handle most tasks required by these types of products.

The post Select The Right OS for IoT Devices appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/select-right-os-for-iot-devices/feed/ 0
Benefits of Medical App Development in 2022 https://www.fusioninformatics.com/blog/benefits-of-medical-app-development/ https://www.fusioninformatics.com/blog/benefits-of-medical-app-development/#respond Fri, 09 Sep 2022 10:30:54 +0000 https://www.fusioninformatics.com/blog/?p=9324 A significant paradigm shift is currently taking place in the field of healthcare application development services. Mobile healthcare…

The post Benefits of Medical App Development in 2022 appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
A significant paradigm shift is currently taking place in the field of healthcare application development services. Mobile healthcare applications are evolving into the new norm, and digital health is a top concern.

Mobile healthcare applications make it possible for patients and doctors to communicate more effectively and efficiently, leading to better medical results. The next step in enhancing general effectiveness, communication, and care quality is mobile health.

Medical app development is helpful in many ways. It reduces paperwork, saves patients time and money, and provides 24*7 medical services to patients.

Mobile Apps in Healthcare and Medical Industry

Let us Look at Some Benefits of Medical Application Development in 2022.

1. Medical app development helps doctors to write prescriptions

Medical app development is one of the best ways to reduce manual work and make things easier for doctors. It helps them write prescriptions quickly, so patients don’t have to wait for long periods to get their medicines.

In emergencies, it can be beneficial, too, as doctors will be able to write prescriptions on their phones in a matter of seconds instead of having them wait for hours or days before being able to see one.

Medical app development also saves money and time for patients because they don’t have to pay more than they usually do when buying medication off-the-shelf at pharmacies or drugstores.

Instead, they can go online using their smartphones and order prescription drugs directly from within the application itself without having any additional fees charged to their accounts whatsoever (aside from any shipping charges). This makes it easier financially and logistically, so there aren’t any delays involved either way—you won’t miss out on anything important!

Role of Mobile Apps in Healthcare and Medical Industry

There were days when patients were confined to wait in a long queue in the waiting rooms. It was boring and time wasted in these waiting rooms

2. It reduces paperwork.

Good news for you and your patients! Using a medical app will reduce paperwork and save time for doctors. The doctor can prescribe his phone and send it to the pharmacy immediately. In this way, the patient gets quick service 24*7.

Medical apps are also helpful in emergencies when doctors need to diagnose a problem quickly and provide instant treatment. It helps reduce errors as they have all relevant information at hand at any point during their working hours or after office hours, provided there is internet connectivity in remote areas where even hospitals may not be present. Still, smartphones are common enough to handle any health emergency with ease.

3. Medical app development is helpful in emergencies.

Medical apps are helpful in emergencies. The doctor’s phone can scan the patient’s fingerprint and send it directly to the hospital. In this way, the doctors can diagnose the patient and determine which medicines to take. The patient will also know how to stay healthy by following regular checkups at home.

The doctor’s phone can also alert them when emergency cases are nearby so that they can help people immediately.

For example, if you have diabetes or high blood pressure but don’t go for regular checkups, your life might be in danger because of these problems later on down the road! This app will warn you when you’re heading towards dangerous situations like these and advise on how best to deal with them.

At the same time, they’re manageable instead of waiting until later when treatment becomes more difficult due to complications from years of neglecting basic preventative measures such as regular exercise and healthy eating habits (including supplements).

4. It saves time and money for patients.

Another benefit of medical apps is that they save patients time and money. When patients go to a doctor, they have to wait in a queue for their turn. Here, doctors can make use of digital technology so that they can save their time as well as not need any paperwork while treating their patients.

When you visit a doctor or hospital with your child who has a fever, cough, or cold, it takes some time before you get the prescription from the doctor after consulting with them.

So, here also, digital technology comes into play where you can download an app like Zee Diagnostics, which helps provide various tests at home without going anywhere else. You have to scan your child’s fingerprint on its scanner, which will display results within seconds without any waiting period.

5. It provides 24*7 medical services to patients.

Medical apps provide 24*7 medical services to patients. This is a great benefit of medical app development in 2022 because it saves time and money. The general public can easily access the services provided by doctors via these apps.

They can book appointments, get prescription refills, and even pay their bills through this medium. These apps help doctors write prescriptions quickly without going through numerous paperwork-related procedures in emergencies.

Conclusion

Medical app development is helpful in many ways. It can be beneficial to doctors, and it can be valuable to patients, and also it is helpful for hospitals. The whole healthcare system has benefited from this technology.

Doctors usually have a lot of work to do, and they cannot spend all their time on their patients. They need an assistant who will help them with the paperwork and other tasks related to the patient’s treatment and caretaking process.

Without spending any time on paperwork or data entry, one can quickly complete these tasks with the aid of an app or software program. This is because all this data is stored digitally, making it much more straightforward than daily handwritten patient statements.

Medical app development has the potential to revolutionize the medical field. It is helpful in many ways and can reduce the workload of doctors. It can also help patients save time and money by providing medical services round the clock.

We think it is an excellent idea for doctors and patients to use these apps for convenience and the best way forward for the Healthcare industry.

The post Benefits of Medical App Development in 2022 appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/benefits-of-medical-app-development/feed/ 0
10 Benefits of e-Learning Apps for Businesses https://www.fusioninformatics.com/blog/benefits-of-e-learning-apps/ https://www.fusioninformatics.com/blog/benefits-of-e-learning-apps/#respond Tue, 16 Aug 2022 09:21:09 +0000 https://www.fusioninformatics.com/blog/?p=9280 If you’re a business, you already know how important it is to stay updated on the latest trends…

The post 10 Benefits of e-Learning Apps for Businesses appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
If you’re a business, you already know how important it is to stay updated on the latest trends and technologies. If you want your business to succeed in today’s fast-paced, tech-driven world, you need to be prepared for anything.

This means that everyone working at your company should have access to the same resources and information no matter where they are or what device they use.

Present and Future of Online Learning

In this blog, we’ll review some of the benefits of e-learning apps for businesses by looking at some successful companies that use e-learning in their everyday operations.

1. Reduce The Cost of Training

E-learning apps are cost-effective because they can be delivered to employees at any time and place, including on mobile devices. Because e-learning apps can be accessed in the workplace or outside the workplace on any device, it does not require organizations to invest in additional hardware for training purposes. This reduces the cost of training your staff.

Additionally, e-learning apps allow you to save time by eliminating the need for physical meetings and travel expenses.

2. Cut Down on Travel Expenses

You can use e-learning to reduce travel costs. If you’re looking for a way to save money, video conferencing across the globe is a great option.

Of course, everyone has their own experience with video conferencing, but this method is much cheaper than traveling in person.

In addition to reducing travel expenses, e-learning apps are also helpful in reducing the need for physical meetings. Business owners don’t have to spend as much money renting out meeting rooms and booking flights or train tickets; they can record their training sessions and make them available via an app.

There are several benefits of using e-learning apps:

  • They cost less than traditional methods of teaching employees.
  • They allow companies in different locations around the world to access high-quality training materials.
  • They give businesses more flexibility regarding when employees can view training videos (since most people watch online courses when convenient).

3. Offer Practical Corporate Training

E-learning apps can deliver corporate training to employees, customers, and partners. Learning is not restricted to the classroom anymore!

Employees get all their coursework from a single platform, which means they have all the information they need at hand when they need it.

They don’t have to remember various passwords for different learning portals or keep track of all their login details for each separate learning tool.

It also saves time as no additional steps are required when accessing another resource – everything is in one place!

4. Achieve Measurable Results

Measurable results are the key to success. Measurable results are the key to ROI. Measurable results are the key to business growth.

Measurable results are the key to employee retention and employee satisfaction—all of which will help your bottom line in a big way!

How do you measure these things? You can start using a tool like Google Analytics or an email marketing service like MailChimp or Constant Contact.

Still, to see where your company is headed, it’s best to use something explicitly tailored for learning management systems (LMS).

5. Improve Employee Engagement

A study from Bersin by Deloitte found that engaged workers are more than 50% likely to stay with their company, compared to only 15% of those who aren’t engaged.

Engaged employees work together and participate in brainstorming sessions and idea sharing. If you want to increase your employee engagement levels, you need to ensure that everyone feels valued and appreciated by the company.

This can be achieved through e-learning apps because they provide an excellent opportunity for employees to share ideas while learning something new simultaneously.

6. Increase Work Flexibility

E-learning apps can help you meet your employees wherever they are. Employees can access the content at their convenience and outside of the office, making it easier for them to learn and retain what they’ve learned.

This may mean that employees have more time in their day and less stress because they don’t have to travel out of town for training sessions.

Employees who already use digital platforms like email or social media might be particularly receptive since this type of learning is familiar to them.

There’s less friction regarding training material delivery methods (i.e., e-learning apps).

7. Offer Fast and Efficient Onboarding.

E-learning apps can help ease the pain of onboarding new employees. You can use these applications to create an onboarding program, which will help you teach new employees about your company’s culture and policies.

An e-learning app is also helpful in providing information on other aspects of life in the workplace, such as how to deal with demanding clients or coworkers.

This makes it easy for managers and employees to get started immediately without having to spend time figuring out systems and procedures themselves.

8. Make Training Available 24/7, 365 Days a Year.

The first benefit of e-learning apps is that they can be accessed anywhere, anytime. This means that training can be available 24/7, 365 days a year.

Employees will access the same content as their colleagues in other locations and time zones—no matter where they are or when it is!

The second benefit of e-learning apps is that they make it easy for people to learn on their schedule. Employees no longer need to attend scheduled classes with colleagues or trainers; instead, they can pick up the material whenever it suits them best (and refer back to it later if necessary).

The third benefit of e-learning apps is that companies can create courses in multiple languages and deliver them through an app so workers worldwide can participate in a single global system.

This enables real-time collaboration among teams on different continents or even different hemispheres!

9. Deliver Training Globally in Multiple Languages

E-learning apps are a great way to deliver training globally in multiple languages. The web is global, and you can use your e-learning app to attract customers outside your local area.

Your e-learning app will be accessible anywhere in the world, meaning that you don’t have to worry about language barriers or if your audience has access to specific equipment.

Additionally, you don’t have to worry about people not being able to understand the information because it will be delivered in their native language.

This means that everyone can learn from it no matter what country they live in or what language they speak!

10. Strengthen Your Brand Image Through CSR Initiatives

As a business, you want to strengthen your brand image through CSR initiatives.

With the help of e-learning apps, you can:

  • Attract and retain good talent by showcasing your commitment to social responsibility.
  • Gain market share by being seen as an organization that cares about its customers and community.
  • Improve employee retention by giving employees more opportunities for personal growth through philanthropy. You will also create an environment where employees feel valued for their work, not just their paycheck. This makes them happier at work and motivates them to stay with your company longer than they would have survived if it weren’t for these opportunities!

Conclusion

If you are a business owner and want to invest your money in e-learning apps, then you should know it is a significant investment.

It will help you achieve your goals in no time, increase employee productivity and satisfaction levels, and make sure that your employees are always learning new things that could help them grow as individuals.

The post 10 Benefits of e-Learning Apps for Businesses appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/benefits-of-e-learning-apps/feed/ 0
Current Top Trends in IoT : Benefits and Challenges https://www.fusioninformatics.com/blog/current-top-trends-in-iot/ https://www.fusioninformatics.com/blog/current-top-trends-in-iot/#respond Fri, 29 Jul 2022 11:28:29 +0000 https://www.fusioninformatics.com/blog/?p=9150 The Internet of Things (IoT) can be characterized as an extension of the Internet and other network connections…

The post Current Top Trends in IoT : Benefits and Challenges appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
The Internet of Things (IoT) can be characterized as an extension of the Internet and other network connections to various sensors and devices, or “things,” giving even basic objects, like lightbulbs, locks, and vents, a higher level of computing and analytical capabilities.

One of the crucial elements of the IoT that contributes to its rising popularity is interoperability. In the Internet of Things (IoT), connected or “smart” objects (things) have the capacity to collect and transmit data from their surroundings to other objects and networks.

Devices are able to work with little to no human input through the analysis and processing of data.

The IoT is continuing to develop as a result of the rising number of connected devices, adding new layers to the data that is already shared and processed and giving rise to complex algorithms that lead to higher levels of automation.

Additionally, the IoT has made a multitude of applications possible for both individual users, various industries and sectors , especially more recently the medical sector.

The Internet of Things will grow and develop over the next few years.

Checkout the IoT trends mentioned below that will have a major impact in coming years.

IOT-Organizations

Internet of Medical Things (IoMT) Continues to Expand

The COVID-19 epidemic has expedited the adoption of the Internet of Medical Things due to the rise in demand for hands-free health solutions (IoMT).

43% of US households reported using these services in 2021, and 64% said they planned to do so after the outbreak. These signs point to continued IoMT growth in 2022.

For instance, wearable health monitoring will become more popular as a supplement to care provided at home. Through IoT connections, hospitals can manage resources and hold remote consultations.

Even post Covid, these trends will continue to advance in order to increase access to healthcare.

Security is the Priority

Worrying security issues are becoming more prevalent as the Internet of Things grows in popularity. At rush hour, a breach in a network of connected cars may cause almost 3,000 fatalities.

Security will rise in importance as the number of IoT devices developed rises along with cybercrime. 

IoT device manufacturers will incorporate additional built-in security measures including secret computing and verification procedures for over-the-air updates.

Security service providers will offer extra IoT-specific services to complement that update. While they won’t be eliminated entirely, vulnerabilities will be lessened.

5G driven IIoT 

The Industrial Internet of Things (IIoT) is one the most promising technologies today. But the low capacity and excessive latency of present networks hinders its deployment. With the launch of 5G in 2022, all of that is changing.

Currently there are approximately 48 billion devices linked to the internet, which obviously strains the networks.

Since the 5G network has quicker speeds, lower latency, and more capacity than previous networks, industrial facilities will be able to deploy the IIoT to additional locations. It is feasible to assemble complete factories into coherent, interconnected entities. 

Growth of Edge Computing

Another inescapable innovation that will materialize as IoT networks expand is edge computing. In addition to improving the viability of self-driving cars, edge computing has the potential to address many of the bandwidth, security, and cloud dependability issues that are now present.

Despite these advantages, it is still a niche technology today, but this will change as the Internet of Things grows.

Edge computing will improve in dependability and scalability as IoT security and processing power develop. As the infrastructure for smart cities grows, this technology may begin to impact consumer applications.

Wearables at New Levels

Wearable technology is one of the most widely used consumer IoT applications, and this trend is expected to continue until 2022. The market for wearables is currently dominated by smartwatches and wristbands, but as they become more diverse, this will change.

The use of smart rings, smart glasses, connected apparel, and IoT ID badges is currently widespread and will continue to grow.

Between 2016 and 2019, the number of connected wearables more than doubled, a trend that will be fueled by a wider range of services.

Wearables will, among other things, help businesses reduce workplace accidents by 2022, extend the use of augmented reality (AR) apps, and enhance accessibility for those with disabilities.

The post Current Top Trends in IoT : Benefits and Challenges appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/current-top-trends-in-iot/feed/ 0
What is IoT (Internet of Things) https://www.fusioninformatics.com/blog/what-is-internet-of-things/ https://www.fusioninformatics.com/blog/what-is-internet-of-things/#respond Wed, 27 Jul 2022 06:53:56 +0000 https://www.fusioninformatics.com/blog/?p=9122 The Internet of Things, or IoT, refers to a network of interconnected devices as well as the technology…

The post What is IoT (Internet of Things) appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
The Internet of Things, or IoT, refers to a network of interconnected devices as well as the technology that enables communication between devices and the cloud as well as between devices. Thanks to the development of low-cost computer chips and high-bandwidth telecommunication, we now have billions of devices connected to the internet.

This means that everyday objects such as toothbrushes, vacuum cleaners, automobiles, and machines can collect data and respond intelligently to users.

The Internet of Things connects commonplace “things” to the internet. Since the 1990s, computer engineers have been adding sensors and processors to everyday objects.

However, because the chips were large and bulky, progress was initially slow. RFID tags, which are low-power computer chips, were first used to track expensive equipment. These chips became smaller, faster, and smarter over time as computing devices shrank in size.

The cost of incorporating computing power into small objects has now significantly decreased. MCUs with less than 1 MB of embedded RAM, such as light switches, can be connected with Alexa voice service capabilities, for example. The goal of incorporating IoT devices into our homes, businesses, and offices has spawned an entire industry. These intelligent objects can transmit and receive data from the Internet on their own.

The Internet of Things refers to all of these “invisible computing devices” and the technology that goes with them.

The Internet of Things

How Does The Internet of Things Work?

A typical IoT system operates by collecting and exchanging data in real-time. An IoT system is made up of three parts:

IoT Application

An IoT application is a set of services and software that combine data from various IoT devices. It analyses this data and makes informed decisions using machine learning or artificial intelligence (AI) technology. These decisions are communicated to the IoT device, which responds intelligently to inputs.

Smart Devices

This is a device with computing capabilities, such as a television, security camera, or exercise equipment. It collects data from its surroundings, user inputs, or usage patterns and transmits it to and from its IoT application via the internet.

A Graphical User Interface (GUI)

A graphical user interface can be used to manage an IoT device or fleet of devices. A mobile application or website that can be used to register and control smart devices is a common example.

What are The Advantages of The IoT for Businesses?

Boost Innovation

The Internet of Things provides businesses with advanced analytics that help them discover new opportunities. Businesses, for example, can create highly targeted advertising campaigns by gathering data on customer behavior.

AI and machine learning can help you turn data into insights and actions

Data gathered and historical trends can be used to forecast future outcomes. Warranty information, for example, can be combined with IoT data to predict maintenance incidents. This can be used to provide proactive customer service and increase customer loyalty.

Improve Security

Continuous monitoring of digital and physical infrastructure can improve performance, efficiency, and safety. Data from an onsite monitor, for example, can be combined with hardware and firmware version data to automatically schedule system updates.

Scale-diffused Solutions

To increase customer satisfaction, IoT technologies can be deployed in a customer-centric manner. Trending products, for example, can be restocked quickly to avoid shortages.

What are the various IoT Technologies?

IoT systems may employ the following technologies:

Edge Computing

The technology that enables smart devices to do more than just send and receive data from their IoT platform is known as edge computing. It boosts computing power at the network’s edges, lowering communication latency and improving response time.

Cloud Computing

Cloud technology is used for remote data storage and IoT device management, making data available to multiple network devices.

Machine Learning

The software and algorithms used to process data and make real-time decisions based on that data are referred to as machine learning. These machine learning algorithms can be deployed in the cloud or on-premises.

Examples of IoT Systems

Smart cities: IoT applications have improved the efficiency of urban planning and infrastructure maintenance. Governments are utilizing IoT applications to address infrastructure, health, and environmental issues.

Connected Homes: Smart home devices are primarily intended to improve home efficiency and safety, as well as home networking. Smart outlets monitor electricity usage, and smart thermostats improve temperature control. IoT sensors can be used to manage gardens in hydroponic systems, and IoT smoke detectors can detect tobacco smoke. Door locks, security cameras, and water leak detectors are examples of home security systems that can detect and prevent threats while also alerting homeowners.

Connected Cars: Vehicles, such as cars, can be connected to the internet in a variety of ways. Smart dashcams, infotainment systems, and even the vehicle’s connected gateway can be used. To monitor both driver performance and vehicle health, they collect data from the accelerator, brakes, speedometer, odometer, wheels, and fuel tanks.

Smart buildings: IoT applications are used in buildings such as college campuses and commercial buildings to improve operational efficiencies. IoT devices can be used in smart buildings to reduce energy consumption, lower maintenance costs, and make better use of workspaces, among other things.

Benefits of IoT

Numerous benefits are made possible by the Internet of Things in our daily lives. Below are a few of its benefits:

Reduce human effort: IoT devices can automate jobs as they interact and communicate with one another, enhancing the quality of a company’s services and requiring less human involvement. .

Saves time: It saves a lot of our time by lowering the amount of human work. One of the main benefits of using the IoT platform is time savings

Improved data collection: Information is readily available, even when we are far from our actual position, and it is regularly updated in real-time. As a result, these gadgets can access data from any location at any time on any device. 

Better security: A connected system can help us govern homes and cities more intelligently via mobile devices. It gives safety for the individual and improves security.

Effective resource management: By understanding the features and operation of each gadget, we can improve resource management and keep an eye on natural resources.

Reduced usage of other electrical devices: Due to direct connections and the ability to communicate with a controller computer, such as a mobile phone, efficient use of electricity is made possible. There won’t be any pointless use of electrical equipment as a result.

Utilization in traffic systems: The traffic tracking system employing IoT technology may make asset tracking, delivery, surveillance, traffic or transportation tracking, inventory control, individual order tracking, and customer management more cost-effective.

Safeguarding concerns: Because it alerts users to any potential threat, it is useful for safety. For instance, in the event of a collision or accident, it calls promptly.

Beneficial for the healthcare sector: Without the requirement for a doctor’s visit, patient care can be provided more successfully in real-time. It enables them to make decisions and deliver care based on the best available evidence.

How IoT Transform the Organization Work

The number of devices that are connected across the globe is staggeringly high and will grow exponentially in the years to come.

Challenges in IoT

While the Internet of Things offers benefits, it also generates a sizable number of challenges, such as:

Security issues: IoT systems are networked and connected, which raises security concerns. Therefore, despite any security precautions, the system offers limited control and is vulnerable to several types of network attacks.

Privacy concern: Without the user’s voluntary engagement, the IoT system provides essential personal data in complete detail.

Increased unemployment: There is a significant risk of job loss faced by both skilled and unskilled workers, contributing to high unemployment rates. Robots, smart ironing boards, smart washing machines, and other devices are taking the place of the humans who used to perform these tasks manually.

System complexity: The extensive technology to IoT systems is highly complicated to design, build, manage, and enable.

High probability that the entire system will become corrupted: If the system has a problem, it’s probable that every linked device will also get affected.

Lack of global standards: It is difficult for devices from various manufacturers to connect with one another because there is no global standard for IoT interoperability.

High dependency on the internet: They have a high reliance on the internet and are unable to function well without it.

Reduced mental and physical activity: People who use technology and the internet excessively become passive and sedentary because they rely on their smart devices rather than working physically.

The post What is IoT (Internet of Things) appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/what-is-internet-of-things/feed/ 0
What is TensorFlow? The Machine Learning Library Explained https://www.fusioninformatics.com/blog/what-is-tensorflow/ https://www.fusioninformatics.com/blog/what-is-tensorflow/#respond Thu, 07 Jul 2022 07:19:38 +0000 https://www.fusioninformatics.com/blog/?p=8858 TensorFlow is a hands-on machine learning platform that is free and open source. It is a symbolic math…

The post What is TensorFlow? The Machine Learning Library Explained appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
TensorFlow is a hands-on machine learning platform that is free and open source. It is a symbolic math library that performs deep neural network training and inference tasks using dataflow and differentiable programming. It allows developers to create machine learning applications by combining a number of tools, libraries, and community resources.

TensorFlow, developed by Google, is currently the most well-known deep learning library in the world. All of Google’s products use machine learning to improve the search engine, translation, image captioning, and recommendations.

It combines models and algorithms from Machine Learning and Deep Learning. It makes use of Python as a convenient front-end and runs it in optimized C++.

Developers can also create a graph of computations to perform. Each graph node represents a mathematical operation, and each connection represents data. As a result, instead of worrying about minor details like how to connect the output of one function to the input of another, the developer can concentrate on the overall logic of the application.

TensorFlow was created in 2015 by Google Brain’s deep learning artificial intelligence research team for internal use. The research team relies on this Open-Source Software library to complete a number of critical tasks.

TensorFlow is the most popular software library at the moment. TensorFlow is popular due to several real-world deep learning applications. TensorFlow, an Open-Source deep learning and machine learning library, has applications in text-based applications, image recognition, voice search, and many more.

TensorFlow is used for image recognition in DeepFace, Facebook’s image recognition system. It is used for voice recognition by Apple’s Siri. Every Google app you use makes good use of TensorFlow to improve your experience.

TensorFlow’s Operation

TensorFlow allows you to create dataflow graphs and structures to define how data moves through a graph by taking inputs in the form of a multidimensional array called Tensor. It enables you to create a flowchart of operations that can be performed on these inputs, which goes at one end and returns as output at the other.

Architecture of TensorFlow

Architecture of TensorFlow
blog.tensorflow.org

The name Tensorflow comes from the fact that it accepts input in the form of a multidimensional array, also known as a tensor. You can create a flowchart that details the operations you want to perform on that input (called a Graph). The input comes in at one end, flows through this complicated system of operations, and then exits as output at the other.

Tensorflow architecture is divided into three parts:

  • Data preprocessing
  • Create the model.
  • Model training and estimation

Where can Tensorflow run?

TensorFlow hardware and software requirements can be divided into two categories.

The mode is trained during the development phase. Training is typically conducted on a desktop or laptop computer. Tensorflow can be run on a variety of platforms after the training phase is complete. It is possible to run it on:

  • Desktop running Windows, macOS, or Linux
  • Mobile devices like iOS and Android
  • Cloud as a web service

You can train it on multiple machines and then run it on a different machine once the model is trained.

The model can be trained and used on both GPUs and CPUs. GPUs were originally intended for use in video games. Stanford researchers discovered in late 2010 that GPUs were also very good at matrix operations and algebra, making them very fast for doing these types of calculations.

Deep learning is heavily reliant on matrix multiplication. TensorFlow is extremely fast at matrix multiplication because it is written in C++. TensorFlow, despite being implemented in C++, can be accessed and controlled by other languages, most notably Python.

Finally, the TensorBoard is an important feature of TensorFlow. TensorFlow can be monitored graphically and visually using the TensorBoard.

Components of TensorFlow 

Tensor

Tensorflow gets its name directly from its core framework: Tensor. Tensors are used in all computations in Tensorflow. A tensor is an n-dimensional vector or matrix that represents all types of data. A tensor’s values all have the same data type and a known (or partially known) shape. The dimensionality of the matrix or array is determined by the shape of the data.

A tensor can be created from input data or the outcome of a computation. All operations in TensorFlow take place within a graph. The graph is a series of computations that occur one after the other. Each operation is called an op node, and they are all connected.

Graphs

TensorFlow employs a graph framework. The graph collects and describes all of the series computations performed during training. The graph has numerous advantages:

  • It was created to run on multiple CPUs or GPUs, as well as mobile operating systems.
  • The graph’s portability enables the computations to be saved for immediate or future use. The graph can be saved and executed later.
  • All of the computations in the graph are accomplished by connecting tensors.
  • A tensor consists of a node and an edge. The node performs the mathematical operation and generates endpoint outputs. The edges of nodes explain their input/output relationships.

Why is TensorFlow so popular?

TensorFlow is the best library of all because it is designed to be user-friendly. Tensorflow library includes various API for creating large-scale deep learning architectures such as CNN or RNN. TensorFlow is based on graph computation, and it allows the developer to visualize the neural network construction with Tensorboard. This tool is useful for program debugging. Finally, Tensorflow is designed to be deployed at scale. It is powered by both the CPU and the GPU.

When compared to other deep learning frameworks, Tensorflow has the most popularity on GitHub.

Summary
  • TensorFlow definition: TensorFlow is the most well-known deep learning library in recent years. A TensorFlow practitioner can create any deep learning structure, such as CNN, RNN, or a simple artificial neural network.
  • Academics, startups, and large corporations are the most common users of TensorFlow. TensorFlow is used in almost all Google products, including Gmail, Photos, and the Google Search Engine.
  • TensorFlow was created by the Google Brain team to bridge the gap between researchers and product developers. TensorFlow was made public in 2015, and it is rapidly gaining popularity. TensorFlow is currently the deep learning library with the most GitHub repositories.
  • Tensorflow is popular among practitioners because it is simple to scale. It is designed to run in the cloud or on mobile devices such as iOS and Android.

The post What is TensorFlow? The Machine Learning Library Explained appeared first on AI, ML and IoT application development company | Fusion Informatics.

]]>
https://www.fusioninformatics.com/blog/what-is-tensorflow/feed/ 0