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jcmarchi · 2 months ago

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Pavlo Pikulin, Founder & CEO of Deus Robotics – Interview Series

New Post has been published on https://thedigitalinsider.com/pavlo-pikulin-founder-ceo-of-deus-robotics-interview-series/

Pavlo Pikulin, Founder & CEO of Deus Robotics – Interview Series

Pavlo Pikulin is the founder and CEO of Deus Robotics, which has developed an AI platform that connects and enhances the intelligence of warehouse robots from any manufacturer. The company also offers AI-powered robots that cover 90% of warehouse automation needs — and counting. With over 22 years of experience in AI and 6 years in robotics, Pavlo serves as an Expert on the Artificial Intelligence committee under Ukraine’s Ministry of Digital Transformation.

Can you share your journey in AI and robotics, and what inspired you to start Deus Robotics?

It all began with my dad, who’s always been a tech enthusiast. Even before I was born, he got me a personal computer — pretty rare in my hometown back in 1989.

When I was five, I wrote my first computer program. The idea of giving a task to a machine and watching it execute was absolutely fascinating to me.

At seven, I sold my first website for $20. Soon after, I started building and selling computers. By thirteen, I had written a program to bypass a captcha in a computer game, which later evolved into an automatic number-plate recognition system.

By fifteen, I was convinced that the future was all about robotics.

This realization set my path towards robotics and AI. However, at that age, I didn’t have the means to start my own robotics company, so I took a bit of a detour. At nineteen, I launched a game studio which grew into a global company with 60 million users worldwide. By 2021, we had 700 employees, and some of our games became the top downloads in their genre in the US.

But robotics was always on my mind and in my heart. I’ve always believed the world would be better if robots could handle all the tough, mundane, or dangerous tasks. By late 2017, I had saved enough to finally bootstrap my own robotics company and make that vision a reality.

It took me a year to do all the research in robotics I needed to start. After that, I gathered a team of incredibly talented engineers and programmers — some old friends, others new faces — and we launched Deus Robotics in early 2019. This past summer, Deus Robotics was shortlisted for Logistics UK’s Logistics Awards, Robotics & Automation Awards, and Supply Chain Excellence Awards USA.

What lessons did you carry over from your 15 years in the gaming industry to robotics and AI?

Working on games has given me valuable experience in many key areas, and it’s been rewarding to see how these skills apply to robotics.

Virtual Worlds for Robotics

Virtual worlds are a game-changer in robotics, offering a quicker and more efficient way to test ideas without waiting months for a hardware prototype. Instead of spending time and resources on physical prototypes, you can experiment in a virtual environment. Creating these virtual worlds is a lot like designing a game, where robots interact with their surroundings — this is where my game development experience really comes in handy.

Algorithm Transfer

When we were developing algorithms for robot path planning, as a team, we tapped into our experience from creating similar algorithms in games for character navigation. In our strategy games, hundreds of characters had to navigate through cities with roads and buildings — just like robots in our systems. This made transferring our path-planning expertise to robotics feel seamless and natural.

Complex Software and Analytics

Robots, much like games, are built on complex software. Developing a world-class game involves creating secure payment systems, social features like chat and groups, competitive elements, and a detailed virtual world with countless mechanics. One of our games had over 300 functional windows — more than you’d find in most banking apps! Games also handle massive loads, with millions or even billions of users performing countless actions, and this experience provides valuable insights for warehouse robotics.

Another crucial aspect is analytics. In games, we had to quickly and efficiently analyze user actions, managing high volumes of data. The same is true for robots, which continuously send vast amounts of data that need robust processing and analysis systems. Additionally, creating AI agents in games to engage players is similar to programming robots, as both involve crafting intelligent, responsive behavior.

In short, if you can build and manage a game development team, you’ve got what it takes to lead a robotics team as well.

How has your role in the Artificial Intelligence Committee under Ukraine’s Ministry of Digital Transformation influenced your work at Deus Robotics?

The Committee’s goal is to advise government authorities on AI, including robotics. I joined to provide expertise specifically in robotics and to consult on government requests. We’re also focused on education, regulations, and pilot AI projects in Ukraine.

Through my work with the Committee, Deus Robotics found a way to expand our passion for advancing robotics in Ukraine beyond just warehouse automation. This allows us to make a broader impact.

Could you explain the unique AI brain developed by Deus Robotics and how it enhances the intelligence of warehouse robots?

Our robot control software, dubbed AI brain, includes key technologies:

1. On-Robot Systems:

A system that collects and analyzes data from all the robot’s sensors, helping it understand its surroundings, determine its location, and make decisions.

A control system that manages all robot mechanisms, such as manipulators, motors, lidars, and cameras, to execute the robot’s decisions.

A 3D recognition system that identifies obstacles using 3D cameras and a lidar recognition system that interprets what the LIDAR detects.

2. Centralized Management Platform:

Our AI platform connects all robots via Wi-Fi, coordinating their actions and enabling centralized communication.

In warehouses, our centralized system is crucial. It prevents collisions by tracking each robot’s exact location in real-time, allowing them to move quickly and safely.

This centralized system also integrates seamlessly with the warehouse management system, making it a key advantage and streamlining robot management.

Besides being connected, our robots are also getting smarter. Thanks to the adapters for different robots, our system can integrate robots from various manufacturers, enabling them to share information and coordinate tasks.

Previously, robots could only coordinate with other robots from the same manufacturer. Now, they can exchange data and work together across different brands.

What sets Deus Robotics apart from other companies in the warehouse automation industry?

Unlike other warehouse robotics companies, we’ve developed the heart of what makes robots truly effective: their brain. Our AI-powered brain connects with robots from any manufacturer, including our own, turning even the simplest robots into smarter, more capable machines. This kind of interoperability is something special in the industry.

This is especially important because, typically, robots from different manufacturers don’t play well together. Each robotics provider only covers a small slice of automation needs, leaving warehouses to choose from too many options. Each provider also requires costly and time-consuming integration, making it hard to switch if you want to try something new. Plus, when robots from different providers can’t connect or be centrally managed, it complicates operations and limits your ability to scale.

That’s where we come in. Our system makes it easy to bring as many robots as you need under one roof, all managed through a single, user-friendly platform.

With our solution, you get:

All automation needs covered under one system.

A single integration for all current and future providers, eliminating repeated integration costs and allowing you to switch providers as needed.

An easy-to-use management system for all current and future robots.

AI-enhanced, smarter robots that work together seamlessly (what’s important, our system can connect with humanoids, too).

Ongoing training and support for warehouse operators to ensure smooth operations.

And the best part? Our solution is truly all-in-one. We offer robots that tackle 90% of logistics tasks (and counting), paired with our AI platform that ties everything together. With our system, you can easily connect robots from any provider, simplify your operations, and scale your automation like never before. This is particularly important as only 20% of warehouses are automated.

How does Lidar technology enhance the navigation capabilities of your AGVs compared to traditional methods?

When our robot spots a floor tag, it navigates with pinpoint accuracy — within 1mm. But when the tag isn’t in view, accuracy can drop to around 20mm. That’s where LIDAR comes in, helping to keep navigation precise even between markers.

LIDAR adds another layer of information, which we combine with data from tags and gyroscopes. Each source gives us different insights with varying accuracy. Our specialized system merges all these inputs to pinpoint the robot’s position with high precision. The more accurate the data, the better the robot navigates, and precise positioning is key to smooth and effective robot movement.

Could you describe the role and benefits of your Robot as a Service (RaaS) and Software as a Service (SaaS) models for businesses?

Buying robots requires significant capital investment, leading to a payback period of one to three years. This also ties up the client’s operating funds and increases capital expenses.

RaaS (Robots as a Service) is a game-changer for businesses. It eliminates the need for capital investment, relying instead on operational expenses. The payback begins in the first month, thanks to the immediate boost in productivity. Instead of needing 2-5 times more people to achieve the same productivity, robots enhance the efficiency of existing staff—at a lower cost than hiring additional workers.

Plus, RaaS reduces risk. There’s no need to freeze investments, and expenses shift from CAPEX to OPEX.

What are the advantages of QR Code Navigation in AGVs, and how does it compare to Lidar?

Automated guided vehicles (AGVs) follow fixed routes, navigating via floor tags instead of LIDAR, and can’t deviate from their path. In contrast, our autonomous mobile robots (AMRs) use 3D LIDAR scans for flexible navigation without relying on floor markers.

In what ways do Deus Robotics’ solutions address the current challenges faced by warehouse logistics and the 3PL industry?

Currently, we offer a solution that transports goods from point A to point B, which is especially appealing to fulfillment centers. However, the need to move goods exists in any warehouse — whether it’s in manufacturing, healthcare, automotive, or retail. In the future, we plan to expand our product line to include robots that can handle tasks like packing, loading and unloading trucks, unpacking, and picking. We’re already working closely with robot manufacturers to integrate their products into our lineup.

Another challenge we’re addressing to make warehouses more efficient is providing a unified system for managing robots — a single integration, management, and enhancement point. Our clients don’t need to deal with multiple robot platforms. They only need to integrate with us once and can then use any robots they choose. While our current selection of robots is limited (we have 15 models to date), we’re constantly working to expand it.

What advancements do you foresee in the integration of AI and robotics in warehouse automation over the next 5-10 years?

One of the biggest challenges we face is figuring out the best way to automate each warehouse. Even though warehouses perform similar tasks, they differ in the details — like processes, staff, the types of goods they handle, and their goals. Some aim for maximum efficiency, others for cost-effectiveness. Planning the right automation solution and setting up the best business processes takes a lot of time and effort from experts. I’m convinced that AI will soon help us design warehouse automation in just seconds, making the process much smoother and more efficient.

Another exciting development is the rise of specialized robots designed for specific tasks. While the first robots were built for general use, as automation grows, we’ll see more robots tailored to unique needs. For example, inventory robots are just starting to appear since most warehouses only need one or two.

Humanoid robots are also on the horizon. These versatile robots will be able to handle tasks much like humans, thanks to advances in AI.

AI is also getting better at helping people with their tasks, like smarter voice assistants that can offer guidance. Plus, AI can optimize warehouse operations by analyzing data and improving efficiency. With access to digital warehouse data, AI can quickly identify and fix issues, making everything run more smoothly.

Looking at the bigger picture, AI will also improve how different warehouses work together, along with suppliers and logistics partners. This includes better scheduling, moving goods efficiently, and predicting what will be needed next.

All in all, AI and robotics are not just tools for automation — they’re the keys to unlocking a smarter, more connected future for warehouses and beyond.

Thank you for the great interview, readers who wish to learn more should visit Deus Robotics.

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nidhi0 · 4 months ago

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GLOBAL AUTONOMOUS MOBILE MANIPULATOR ROBOTS (AMMR) MARKET FORECAST 2024-2032

According to Inkwood Research, the Global Autonomous Mobile Manipulator Robots (AMMR) Market is estimated to project a CAGR of 23.42% in terms of revenue during the forecasting years of 2024-2032.

VIEW TABLE OF CONTENTS: https://inkwoodresearch.com/reports/autonomous-mobile-manipulator-robots-market/#table-of-contents

Autonomous Mobile Manipulator Robots (AMMR) represent a significant leap in robotics, combining the mobility of autonomous mobile robots (AMR) with the dexterity of robotic manipulators. These advanced systems are revolutionizing various industrial sectors by enhancing productivity, efficiency, and safety.

In the industrial landscape, AMMRs are primarily employed in manufacturing, warehousing, and logistics. Their ability to navigate complex environments and perform intricate tasks makes them indispensable in modern factories. AMMRs can autonomously move materials, assemble components, and even perform quality control checks, reducing the need for human intervention in hazardous or repetitive tasks.

REQUEST FREE SAMPLE: https://inkwoodresearch.com/reports/autonomous-mobile-manipulator-robots-market/#request-free-sample

Key Growth Driver: Advancements in Robotics and AI

AI algorithms and machine learning techniques empower AMMRs to learn from data, identify patterns, make decisions, and solve complex problems autonomously. In healthcare, these algorithms analyze medical data to aid in disease diagnosis and treatment planning. In manufacturing, they enable AMMRs to perform complex tasks like assembling intricate components, conducting quality control inspections, and operating in hazardous environments with precision and speed.

Computer vision, a branch of AI, applies machine learning to images and videos, allowing AMMRs to recognize and interpret objects, people, and gestures for sophisticated interaction with their surroundings. For example, a London-based emotion AI startup used computer vision to analyze facial expressions through cameras, helping brands like Coca-Cola and AT&T evaluate commercial effectiveness based on viewer emotions.

The rapid advancements in AI technology, including sensor technologies, machine learning, and computer vision, have significantly enhanced AMMRs' capabilities, making them highly effective and versatile across various industries.

Fastest-Growing End-User: Electronics and Semiconductors

In the electronics and semiconductor industry, Autonomous Mobile Manipulator Robots (AMMR) are utilized for assembly, dispensing, material removal, and packaging. Robotics have always been crucial in these sectors for executing complex assemblies with high precision. AMMRs specifically handle tasks such as quality inspection, stress testing, product packaging, palletizing, painting, arranging, and testing. As the electronics industry evolves, there is an increasing demand for advanced AMMRs capable of managing more critical operations in electronics manufacturing.

Prominent Geography: Asia-Pacific

In Asia-Pacific, where manufacturing plays a critical role in the economy, AMMRs are streamlining processes such as material handling, assembly, and quality control. This leads to higher efficiency, lower operational costs, and improved safety standards in factories and warehouses.

Healthcare in Asia-Pacific is also benefiting from the deployment of AMMRs. These robots assist in transporting medical supplies, pharmaceuticals, and equipment within hospitals, allowing healthcare workers to focus more on patient care. With their precise manipulation capabilities, AMMRs are utilized in tasks such as medication delivery and sample collection, ensuring accuracy and minimizing the risk of errors.

Request for Customization: https://inkwoodresearch.com/request-for-custom-report/

About Inkwood Research

Inkwood Research specializes in syndicated & customized research reports and consulting services. Market intelligence studies with relevant fact-based research are customized across industry verticals such as technology, automotive, chemicals, materials, healthcare, and energy, with an objective comprehension that acknowledges the business environments. Our geographical analysis comprises North & South America, CEE, CIS, the Middle East, Europe, Asia, and Africa.

https://www.inkwoodresearch.com

[email protected]

1-(857)293-0150

Related Reports:

GLOBAL AGRICULTURAL ROBOTS MARKET: https://inkwoodresearch.com/reports/agricultural-robots-market/

GLOBAL AUTONOMOUS MOBILE ROBOTS (AMR) MARKET: https://inkwoodresearch.com/reports/autonomous-mobile-robots-market/

GLOBAL AUTONOMOUS VEHICLE MARKET: https://inkwoodresearch.com/reports/autonomous-vehicle-market/

#autonomous mobile manipulator robots #ammr #automation #robotics #inkwood research #market research trends

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vertexplus17 · 5 months ago

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VertexPlus - RPA Services | Sharepoint | Salesforce Consulting in USA

#vertexplus #mobile app development #robotic process automation

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bespokesoftwaredevelopment-blog · 1 year ago

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Top Technologies That Will Transform The Fintech Industry

Financial Technology or fintech is revolutionising the way businesses and governments function worldwide. This innovative solution refers to the application of technology to improve and optimise the use and delivery of financial services.

Fintech startups build intelligent software and algorithms that help business owners and customers easily and effectively manage various financial operations. Some of the ingenious existing examples of fintech are mobile payments, online financing, stock trading, insurance, etc.

According to a report by Statista, there were 10,755 fintech startups in America, 9,323 in Europe, the Middle East, and Africa, and 6,268 in the Asia Pacific Region in November 2021.

Another report states that the global fintech revenue is expected to grow from 92 billion euros in 2018 to 188 billion euros by 2024 at an average growth rate of 12%.

Fintech has considerable potential to disrupt the traditional banking and finance industry to improve and automate financial services. Considering the evolving rate of technology, a fintech startup must remain updated with the current trends to keep up with the market. Hence in the following sections, we have listed the five technology trends that can skyrocket the growth of a fintech startup. Also, how the Best mobile app design & development company in the UK can help you in Fintech App development.

1. Artificial Intelligence

Artificial intelligence or AI imparts the problem-solving and thinking capabilities of humans to machines. In recent years, the fintech industry has become heavily dependent on AI for numerous purposes like decision making, improving digital payments, identifying purchasing behavior patterns, etc.

The global AI in the fintech market will grow from USD 7.25 billion in 2021 to USD 24.17 billion in 2026 at a CAGR of 27.6%, reports Business Research Company.

AI can increase the value of the global banking industry by USD 1 trillion per year, says McKinsey.

AI applications like chat interfaces, wealth management, facial recognition, price forecasting, market trackers, etc., will be prevalent in the future and lead to an exponential rise in value creation. In addition, AI will drastically decrease the events of cybercrimes and financial threats because it effectively deals with unstructured data.

2. Blockchain

Blockchain is one of the most significant disruptive technologies that will radically change traditional financial services. It can be described as a digital ledger or database that records and distributes transactions in a business network.

Financial institutions use blockchain to increase security, reduce costs, and boost efficiency. This technology has been rising since 2018, tempting banks worldwide to adopt this innovative solution to secure their financial transactions.

According to research, the global blockchain in the fintech market can grow at a CAGR of 75.9%, increasing from USD 230 million in 2017 to USD 6228.2 million by 2023.

Blockchain records encrypted transactions that are impossible to penetrate. At the same time, it reduces the chances of hacking attacks by mandating transaction approval by network stakeholders. Moreover, Blockchain uses tokens as assets for value transfer, promoting the use of a single universal currency

3. Serverless

Serverless is an emerging technology that is rapidly changing the banking and financial industry by simplifying app creation. No matter what the size of your fintech startup, you can get remarkable benefits by utilising serverless features.

Your company can create and maintain applications on a simple cloud-based server in a serverless architecture. You don’t have to waste valuable resources on managing the servers or solving issues because the cloud providers maintain the back end of the app. No wonder why this technology is becoming popular among mobile app development companies.

Serverless architecture reduces the burden off your shoulder and helps you create lightweight apps easily and quickly to enhance your customer experience. Moreover, this increases business productivity and helps create new revenue streams for increased profits.

We are an App Development Company in the UK and a top provider of mobile app development services and have developed outstanding applications for fintech startups using Serverless technology.

4. Robotic Process Automation

Robotic Process Automation is a technology that uses software robots to emulate human activities like collecting data, moving files, filling forms, etc. RPA can be used to automate repeatable tasks that don’t need much human intelligence, making business processes effective.

Your company can use chatbots that interact with customers and answer their queries anytime during the day or night. The chatbots also take less time to reply to customers, enhancing user experience.

Other activities include data entry, managing and processing loans, consolidation and reporting, and analysing customers’ complaints. This simple technology can impart high value to any company, ensuring accuracy and high efficiency.

5. IoT

IoT or Internet of Things has given the fintech industry a tremendous boost in the past few years by providing extra security and increasing customer satisfaction. This technology can be described as a network of connected objects using sensors to collect and exchange data with other systems.

Markets and Markets Report says that the global IoT in Banking, Financial Services and Insurance market can grow at a CAGR of 52.1% from USD 249.4 million in 2018 to USD 2030 million by 2023.

According to a Statista report, the global IoT market is expected to grow from USD 389 billion in 2020 to over USD one trillion in 2030. At the same time, the number of IoT-connected devices would increase by 200%.

Cashless payments, introducing smart ATMs and banks, using security systems for fraud protection, supervising supply chain activity to reduce complicacy in debt collection, understanding the consumer market by analysing customer behavior, etc., are examples of how IoT helps businesses improve customer services.

The major benefit for you is that IoT is our area of speciality and we have made enough advancements in the building automation industry. For more information on Ficode IoT Services, click here.

Final Words

These five trending technologies are transforming the banking and financial world swiftly. A business using artificial intelligence, blockchain, serverless, Robotic Process Automation, and the Internet of Things can be highly productive, profitable, and popular. With ever-changing market demands and cut-throat competition, fintech startups must keep track of these trends to survive and flourish in the market.

If you want a simple and powerful mobile app for your fintech startup, you can partner with Ficode. We are a UK mobile app design and development company that provides bespoke app development services using innovative technology that exceeds your expectations.

We have the best app developers in the UK who will turn your raw ideas into profitable functional apps. Be it a smart android app or a stylish IOS app, our mobile app development services in the UK are one of the most affordable solutions.

This post originally appeared on Ficode website, and we republished with permission from the author. Read the full piece here.

#development company #Fintech Industry #API intelligent #Artificial Intelligence #Blockchain #Robotic Process Automation #Process Automation and Technology #IoT Internet of Things #IoT #iot solutions #web development #web #ficode #software #api for mobile app development #mobile app development company

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hindisink · 1 year ago

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What is RPA (Robotic Process Automation)

Robotic Process Automation (RPA) refers to the use of software robots or virtual assistants to automate repetitive and rule-based tasks within business processes. RPA technology enables organizations to automate manual tasks, streamline workflows, and improve operational efficiency.

Also Read: बाइक नंबर से मालिक का नाम online

Here are some key aspects and characteristics of Robotic Process Automation:

Task automation: RPA software robots mimic human interactions with digital systems and applications, performing tasks that involve data entry, data manipulation, data extraction, calculations, file management, and more. They can interact with various software systems, including web applications, desktop applications, spreadsheets, databases, and even legacy systems.

Rule-based operations: RPA operates based on predefined rules and instructions. The software robots follow specific guidelines, logic, and decision-making processes to execute tasks accurately and consistently. They can handle structured data and repetitive tasks that follow clear patterns or rules.

User interface interaction: RPA robots interact with the user interfaces of applications and systems, just like humans do. They can click buttons, fill out forms, extract data, copy and paste information, and perform other actions to complete tasks. This ability allows RPA to work with existing systems without requiring major changes or integrations.

Non-invasive integration: RPA does not typically require modifications or changes to underlying systems or applications. It can interact with the user interface layer of existing software systems, making it a flexible and non-disruptive automation solution.

Scalability and flexibility: RPA implementations can be scaled up or down based on business needs. Organizations can deploy multiple software robots to handle a high volume of tasks or redistribute them as needed. RPA can also adapt to process changes and variations, making it suitable for dynamic business environments.

Error reduction and accuracy: RPA robots are designed to perform tasks with high accuracy, minimizing human errors and inconsistencies associated with manual work. They can work 24/7 without fatigue, ensuring consistent performance and improved data quality.

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Robotic Process Automation has a wide range of applications across industries and departments, such as finance, customer service, human resources, supply chain management, and more. It allows organizations to automate repetitive and time-consuming tasks, freeing up human workers to focus on higher-value activities, improving productivity, and reducing costs.

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everythingwaschocolateandsugar · 2 years ago

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Hospital Logistics Robots Market was valued at USD 971.25 billion in 2021, and is expected to reach USD 5637.85 billion by 2030, with a CAGR of 21.2% from 2022 to 2030.

#Hospital Logistics Robots Market #Automated Guided Vehicle (AGV)#Mobile Robot #Autonomous Mobile Robot #Remote-controlled Mobile Robot #Pharmacy #Laboratory #Sterile Goods/Surgical Supplies Delivery #Food Delivery #Laundry Delivery #Waste Transportation

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iplusmobotonline · 2 years ago

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AMR Automated Mobile Robot

An autonomous mobile robot (AMR) can comprehend and navigate its surroundings without direct operator supervision. Explore more about its features.

Visit to know more: www.iplusmobot.com

#amr automated mobile robot #automated mobile robots #mobile industrial robot

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gavstech · 2 years ago

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Enhancing Immunity - Defending Against Social Engineering Attacks

Social engineering is a form of psychological manipulation used to gain access to confidential information or resources. This tactic is often used by criminals and hackers who use deception, manipulation, and influence tactics to exploit people’s trust in order to gain access to sensitive data in IT operations. Social engineering can be used for malicious purposes such as identity theft or financial fraud, or it can be used for more purposes such as marketing campaigns. In either case, social engineering relies on exploiting human psychology in order to achieve its goals.

Social engineering attacks are becoming more and more common as hackers become increasingly sophisticated. It is important for companies to understand the steps involved in a social engineering attack so that they can take steps to protect themselves from such threats.

Social engineering attacks involve manipulating people into revealing sensitive information or granting access to systems, networks, or physical premises. These attacks typically involve tricking people into giving out confidential information by exploiting their trust and lack of security knowledge. The attacker may also use physical means such as impersonation or tailgating to gain access to restricted areas.

In order to protect against social engineering attacks, it is important for companies to be aware of the steps involved in such an attack. This includes understanding how attackers use psychological tactics, how they exploit human weaknesses, and what measures can be taken to prevent such attacks from occurring.

Social engineering attacks are one of the most common cyber threats that organizations face today. These attacks use psychological manipulation and deception to gain access to sensitive information or resources. They can take many forms, including phishing emails, malicious links, and impersonation scams.

Awareness of Social Engineering Attacks

Validating the identity of the user with whom we are doing business

Checking for the authenticity of the attachments and the email we get in our inbox

Double-checking the content and legitimacy of the offers and discounts which are sent to us

Verifying the email address, domain, and social media profiles carefully when we get a message from the suspect

Preventing Social Engineering Attacks by Improvising IT Network Immunity

Use of Multifactor authentication adds one extra layer of the security

Adaptive authentication plays a key role in safe authentication

Having a strong password policy or password manager will ensure the user passwords are of not compromised easily

Defining the software access policies

Using desktop virtualization software to give you private, encrypted access to the network connection

Read more @ www.gavstech.com/enhancing-it-network-immunity-to-defend-against-social-engineering-attacks/

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iborginc · 2 years ago

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Unlock the Potential of Automation Services with Robotic Process Automation

Robotic process automation (RPA) is the use of software with artificial intelligence (AI) and machine learning capabilities to handle high-volume, repeatable tasks that previously required human labor. In recent years, businesses have embraced RPA for its ability to deliver cost savings, improve accuracy and efficiency across a range of processes. In this article, we’ll discuss how you can use RPA to unlock the potential of automation services for your business.

Understand the Benefits of RPA

One of the main benefits of robotic process automation (RPA) is its ability to automate mundane, manual activities quickly and efficiently. By using advanced algorithms and AI technologies, bots can review documents and process data faster and more accurately than humans. This not only increases the speed of the automated process but also ensures a higher quality output with fewer errors.

Identify Automation Solutions

The next step in unlocking the potential of automation services with RPA is choosing which solutions should be automated first. When selecting an automation service, it’s important to consider factors such as cost savings versus time saved for implementation, scalability across departments within your organization, and other services that will benefit from an automation boost.

Develop Automation Strategy

Once you have identified the areas in which you want to leverage automation services using RPA, develop an overall strategy that outlines your goals and how they will be achieved through robotic process automation. It’s essential that all stakeholders are included when developing your strategy so everyone has a clear understanding of what should be done, why it should be done, and how it will help achieve desired results.

Implement Process Improvements

After developing your plan for implementing automated processes using robotic process automation (RPA) technology, apply changes accordingly. Use analytics tools to measure results including cost savings or increased productivity across operations so you can determine whether or not further improvements are needed in order to maximize results from your automated solutions.

#automation solution #automation services #automation software #automation #technology #rpa software #robotic process automation #robotic mobile automation #robotic test automation #iborg #iBorg INC

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gellymark-blog · 2 months ago

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At McMurray Stern, they offer cutting-edge Autonomous Mobile Robots in California, designed to enhance warehouse operations. Their Haipick robot solutions are at the forefront of technological advancements, reshaping how goods are transported and managed. Paired with High-Density Storage solutions, their systems optimize space and increase efficiency. As a high-density storage provider option, they strive to save you money and time. They are committed to helping you get the most out of the space you already have. Discover how their solutions in California can transform your facility.

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qmoniqs · 2 years ago

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Best Robotic Process Automation in Gurugram

Qmoniqs Software is the foremost & honored RPA service provider. Grab our Robotic Process Automation (RPA) to amplify your business productivity. The best Robotic Process Automation in Gurugram software is now reducing costs and allowing businesses to focus on critical work. Such tools of automation are the best example of why most skillful companies are growing worldwide. Your only motive now should be investing in a powerful RPA automation platform.

#Robotic Process Automation #IT services #IT company #web development #mobile app development services #website designing

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ceyhanmedya · 2 years ago

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Agricultural Robot (Agribot)

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Agricultural Robot (Agribot)

What is an Autonomous Agricultural Robot? What are the usage areas of agricultural robots?

An agricultural robot , also known as an Agribot , is a robot designed for use in the agricultural industry. Agribots automate tasks for farmers, increasing the efficiency of production and reducing the industry’s dependence on manual labor.

One of the biggest advantages of Agribots is that they can work 24/7, 365 days a year. Unlike human labor, they don’t need to be paid, just maintained.

Agribot continues to grow and investors are more focused than ever on sustaining our economy through automation, robotics, vertical farming, modern greenhouse applications, artificial intelligence and precision farming.

Some of the main applications of robots in agriculture are:

Harvest and collection

Autonomous mowing, seeding, spraying and pruning

Sorting and packaging

Phenotipleme

As the human population increases, farmers are forced to use new technologies to meet the increasing demand. It is expected that there will be about 9 billion people in the world by 2050. The IEEE Robotics and Automation Association says agricultural production must double to meet rising food and bioenergy demands.

To meet the food demand of 9 billion people, robotics and automation are expected to play an important role in society. Agriculture is undergoing a hi-tech revolution as manufacturers increasingly turn to robotics to meet multiple challenges.

Innovative technologies and automation of tasks can help overcome some of the challenges, as the latest trends in robotization show.

Harvesting and Gathering Robots

Harvesting and picking robots are best suited for high-value crops such as grapes, where harvesting has traditionally been laborious and time-consuming. Innovations such as nanotechnology , materials science and mechatronics allow picking robots not only to detect fruits and analyze their ripeness, but also to grasp and sort them without damage.

According to Future Farming, harvesting robots could be used for crops such as broccoli, citrus fruits, cauliflower, kiwi, tomatoes, cucumbers, peppers, lettuce, mangoes and watermelons in the near future . Even some field robots ; It can take over activities such as tillage, seeding, crop care and mowing from tractors.

Sorting Robots

High-value crops (including a variety of lettuce, strawberries, blueberries, oranges and other citrus and grapes) seem to offer the best examples for robotic sorting. These robots are especially useful where steep terrain is dangerous for workers and equipment. Thanks to precision technology, weeding robots can also direct specific doses of herbicides to the weeds, radically reducing the amount of herbicide applied.

Milking Robots

Dairy farmers are switching from traditional milking methods to automatic milking methods to meet the exponential increase in global milk demand on the one hand and to alleviate labor shortages on the other. Milking robots help increase the productivity and efficiency of the milking process. The expectation is that the market share will shift from stand-alone units to multi-stall units and then to advanced rotary units in the coming years. Automatic feeding and barn cleaning systems also help increase productivity in the industry.

Drones/UAVs

Due to the growing awareness of drones in agricultural applications, the global agricultural drone market is expected to grow the most steadily. Agribusinesses use drones (also known as Unmanned Aerial Vehicles) to collect data for soil analysis , planting, crop spraying, crop monitoring, irrigation, and animal health assessments, among other things.

The decline in component prices and the improvements in stability and reliability are expected to be more common with relatively low-cost projects, particularly from Asian countries.

Will Agricultural Robots Become Widespread?

The United States, Europe, Australia and Japan are major regions that are adopting robotic systems and autonomous agricultural machinery to replace human labor while performing mundane agricultural tasks . Although robotic systems are already well established in the dairy industry, harvesting, picking and sorting will quickly catch up from 2025.

Adopting new technologies like robotics, machine learning will be a key factor in the changing face of agriculture worldwide. It will also reshape the definition of farm workers, lighten the workload, and also show promising results in crop productivity, increased yields and managed input costs.

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