How To Know Smart Lawrence Robot Fake Stores- 2020

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Smart Lawrence Robot Review, Features, Is it Fake or Scam & How to Buy

Today, we are living in the world of science and technology and there is huge competition where everybody wants to surpass the other in technological advancement. And when we talk about automation in science, we encounter the term artificial intelligence very often.

The purpose behind artificial intelligence is to introduce human intelligence in the form of machine, such a machine can be able to listen to the command and not just that it can produce an effective response according to that demand just like a human.

The Smart robot is also an example of artificial intelligence. It is a machine that picks up the basics of human behavior and then helps the man with his chores. Although there are many robots that are manufactured to assist in big and small industries and they are performing quite well at different levels but apart from that, robots are also being produced as toy robots so that our kids can be introduced to this new technology at an early age. And such robots are also called “smart robots”.

The most frequently searched robot on the internet today is Lawrence Smart Robot and you must be here on this page in the search of that. Right?

Well, let’s have a look if Lawrence Smart Robot is really that smart or is it just a myth? Where is it being sold and how to buy it? What are the reviews given by the buyers? To get answers to all these questions, just keep reading the following review.

What is Lawrence Smart Robot?

Today every kid dreams of having a toy robot of his own that stays with him and becomes his play-partner. Smart Lawrence is one such robot that has been programmed very intelligently to satisfy the kid’s needs.

The reason behind such massive popularity of this robot is its incredible 07 senses which include seeing, feeling, moving, speaking features are definitely worth praising. It also comes in two colors that are red and blue.

The singing and dancing feature of this robot is another amusement for the kids. It also has a special feature called gesture control that controls movement of the robot.

The remote control and USB charging feature also available in the packing.

The feature of speech recognition enable the robot to understand the commands and create a response.

To enhance the communication skills of the robot, the memory recognition feature has been added and it comes with a set of 20 languages pre-installed in it. This makes the robot communicate in 20 different languages. Isn’t it amazing?

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Not just that, to keep up with his intelligence it can automatically connect with the internet and can find appropriate responses according to the command given.

Apart from that, the one feature that proves to be an eye-catcher is its ability to see things. Two high pixel high cameras are already included in the robot that enables the robot to identify different objects and shapes.

To get more details about these features, you can also visit the below-given link.

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Smart Lawrence Robot Christmas Offer?

As we all know, Christmas festival 2020 is expected to come this month and on this occasion all the kids get excited about their gifts. On this occasion, Lawrence Smart Robot has brought special discount promotion for its customers. On the purchase of 2 robots, you will get free shipping facility. This amazing offer saves you $20 on every purchase.

2020: Future of Manufacturing Technology

Recent predictions have identified 2020 as the year technology gains critical mass. What does it mean for worker safety?

Technology is an ever-evolving field, constantly mixing in new iterations and innovations to create exciting new opportunities for today’s manufacturers to reimagine their operations. In some instances, new technologies open the door for progressive manufacturers release truly innovative offerings of their own.

The big question? Which technologies warrant the often-significant resource investments required to navigate the ongoing digital transformation and embrace what Industry 4.0 promises.

Let’s take a deeper look at what’s going on with a few of the key technologies:

Advancing robotics and automation

Smart manufacturers are efficient by design. This is where robotics and automation thrive. And, according to the Robotic Industries Association, manufacturers see the potential. Specifically, robot orders are up 5.2% through the third quarter of 2020, with 23,894 robotic units ordered, a value of $1.3 billion.

The continued trend toward collaborative environments is playing a significant role. Unlike historical deployments where one or two processes often consumed a disproportionate share of the project cost, collaborative robots (or cobots) allow for incremental investment. As a result, manufacturers can automate one process at a time.

Cobots are “easier to digest, faster to deploy and generate returns quicker,” says Joe Campbell, Universal Robots’ senior manager of strategic marketing and applications. “The enabler is the ability to work side-by-side with skilled operators.”

According to Campbell, there has been a noticeable uptick in the number of small and medium sized manufacturing companies embracing collaborative robots.

“The difference is that in many cases the programming is taking place by the line operator. The business impact in these companies is significant because everyone is struggling to hire, which hits these companies even harder,” he says. “We are regularly seeing collaborative robots go in right at or below the annual cost of an average manufacturing worker.”

The boost in the availability of plug-and-play, pre-engineered peripherals is also making a significant difference. “Industry focused companies are building products to seamlessly integrate with robots in a matter that strips out the time, cost and risk commonly associated with robots,” he says. “This trend is going to continue into deeper application kits, making collaborative robots more attractive.”

As a prime example, Robotiq developed a software package that allows manufacturers to easily set up complex sanding patterns on contoured surfaces. “It is not just sanding head,” says Campbell. “It is the means to apply it efficiently. They have reduced a multi-day programming operation down to a twenty-minute task.”

As another example, Vectis Automation developed a full welding kit including a software process layer geared for a welder rather than an engineer to put the robot into action. “It is a matter of side-stepping the need for a skilled robot engineer for every application,” says Campbell.

The overarching trend in automation, according to Rockwell Automation CEO Blake Moret, is the convergence of IT and OT technology.

“It is causing organizations to structure themselves differently in order to take advantage of the integration,” he says. “When people talk about digital transformation, it is happening throughout the enterprise. We are seeing some very interesting things where the IT organization is taking on a different role—placing new demands on organizational infrastructure. You still need smart devices and the final mile to turn the motor and land the I/O, but productivity is provided with an increased amount of data driven software.”

As automation makes its way into new spaces including life sciences and the electric vehicle, the efficient use of data is going to prove significant, explains Moret.

“The wrong way to do it is to land it all in a database where you have to go fishing for insights afterwards,” he says. “To be able to have scalable solutions that process just enough data that could be right at the edge or in the cloud. Your workforce needs to be comfortable interacting with the system, making simplification important. We need to drive the complexity out.”

Embracing additive manufacturing and 3D printing

The 3D printing industry was worth $3 billion in 2020 and grew to $7 billion in 2020. By 2025, the market is forecast to account for more than $20 billion in spend, according to GlobalData. There are a few key evolutions taking place in this space that are fueling the ongoing growth trajectory.

Most notably is the introduction of new materials and software advances, both of which are clearing paths to creative new applications. For instance, as bioprinting and digital anatomy continue to mature, the ability to seamlessly switch between materials to benefit from differing properties. While current advances continue to improve the ability to streamline prototyping, perhaps the most encouraging outcome is the ability to better visualize the future potential for mass customization.

Looking ahead, HP 3D Printing and Digital Manufacturing Chief Technologist Paul Benning offers four predictions around how 3D printing will further transform the manufacturing landscape in 2020:

  • Automated assembly will arrive, with industries seamlessly integrating multi-part assemblies including combinations of 3D printed metal and plastic parts. There’s not currently a super printer that can do all things intrinsically, like printing metal and plastic parts, due to factors such as processing temperatures. However, as automation increases, there’s a vision from the industry for a more automated assembly setup where there is access to part production from both flavors. The auto sector is a great example of where automated assembly could thrive on the factory floor. Benefits of an automated assembly for industrial applications include printing metals into plastic parts, building parts that are wear-resistant and collect electricity, adding surface treatments, and even building conductors or motors into plastic parts. The industry isn’t ready to bring this technology to market just yet, but it’s an example of where 3D printing is headed beyond 2020.
  • Data payloads for 3D printed parts will be coded into the surface texture. It’s a competitive advantage to be able to build interesting things onto surfaces. Something that HP has experimented with is coding digital information into a surface texture. By encoding information into the texture itself, manufacturers can have a bigger data payload than just the serial number. This is one way to tag a part either overtly or covertly so that both people and machines are able to read it based on the shape or orientation of the bumps. HP can also put hundreds of copies of a serial number spread across the surface of a part so that it’s both hidden and universally apparent.
  • Universities and training programs will build a new set of thought processes to liberate designers from old thinking and allow them to tap into technologies of the future. 3D printing’s biggest impact to manufacturing job skills lies on the design side. There is a world of designers who have been trained in and grown up with existing technologies like injection molding. Because of this, people unintentionally bias their design toward legacy processes and away from technologies like 3D printing. To combat this, educators of current and soon-to-be designers must adjust the thought process that goes into designing for production given the new technologies in the space. We recognize this will take some time, particularly for universities that are starting up degree programs. New software design tools will guide designers to make better use of 3D printing in manufacturing. One example of this is Oregon State University where they’re using 3D printing to design and build combustion, electric and driverless cars.
  • Advances in software and data management will drive improved system management and part quality leading to better customer outcomes. Companies within the industry are creating API hooks to build a fluid ecosystem for customers and partners. HP is expanding upstream to use data to enable ideal designs and optimized workflows for Multi Jet Fusion factories. This data comes from design files, mobile devices, or scanning technology and is applied to improve production efficiency and deliver individualized products purpose-built for their end customers.

Working with wearables

The mention of wearables often recalls a Star Trek like image. However, not all wearables are futuristic in nature—nor are they all gimmicky single-use technologies.

When looking at how wearables can positively impact the manufacturing space, the key is to move beyond the formfactor to focus intently on the application.

“Wearables are not restricted to eye-based units, with today’s smart watches capable of monitoring medical metrics serving as a perfect example,” says Parsable CEO Lawrence Whittle. “These smart devices are coming down in price, and with a little creativity they can prove valuable in a lot of ways. For instance, when a wearable detects fatigue, it can ping a supervisor to say that you need to make sure an employee is okay.”

The goal with wearables is to identify applications capable of enhancing worker safety and production efficiency. The right formfactors can augment and enhance the human’s ability work. Of course, companies need to be conscious of their use since some of the features like voice recognition are not yet optimized for noisy industrial environments.

“As each year goes by the ability to connect workers is clearly there. VR and AR are proven use cases for training. What we believe is the valuable role for wearables is around work execution. If you go back to the sensor on a piece of machinery to know if its overheating. You can have sensors on humans to understand better how they are augmenting work,” says Whittle. “They can play a key role in detecting what the environment is like including the temperature, smoke in the air or any number of factors that could impact people or processes.”

Recognizing growing need for 5G

As the list of technologies impacting today’s production environments multiplies including the expansion of the Industrial Internet of Things and the number of connected devices, the bandwidth demands are intensifying as data creation and utilization constantly compounds. The latest generation of network technology, 5G satisfies the need for high speed, reliable and secure connectivity that supports a new highly mobile reality. With speeds of up to 100 gigabits per second, 5G is roughly 100 times faster than 4G.

Imagine for instance, a drone transporting a device within the facility entering a dead zone and suddenly losing its connection. While built-in software programming can provide some levels of redundancy and consistency to keep the drone in flight until it reestablishes a connection, the time in the dead zone could understandably have significant negative consequences.

While the U.S. has yet to realize its benefits, the technology needed for 5G exists with firms like Ericsson, Qualcomm and Huawei leading the way in its development. Unlike previous generations, 5G leverages multiple input multiple output digital technology using targeted beams to follow users, making it possible to consistently improve coverage and capacity. Of course, its widespread availability remains questionable at best including the need for extensive investments in new network installations and sweeping software upgrades.

Continued IoT investments

As the pipeline connecting and collecting mountains of data from an entire spectrum of equipment and devices, IoT continues steady progression as more companies embark on their journey.

According to the PwC’s 2020 Internet of Things Survey, manufacturers are optimistic about IoT with 93% believing its benefits exceed its risks. In fact, 68% plan to increase their investment over the next two years.

“Manufacturers need to know that if they haven’t already implemented IoT, they’re already behind their competitors — 81% of industrial manufacturers have applied IoT to increase operational efficiency and almost two-thirds plan to increase their IoT investment over the next two years,” says Rob Mesirow, leader of the PwC Connected Solutions/IoT practice. “It’s also important to note the most popular IoT use cases so manufacturers can better guide their own deployment plans. The main use cases are in logistics (50%), supply chain (47%), employee and customer experience (46%), and predictive maintenance (41%).”

However, Mesirow notes there are cybersecurity concerns when implementing IoT. Specifically, more executives in manufacturing are extremely concerned about IoT and cybersecurity than in any other industry PwC surveyed. “With this knowledge, manufacturers should look closely at the IoT devices and partners they’re considering to ensure they aren’t implementing poorly secured devices or networks,” he says. “A few approaches to consider are better managing ecosystems and developing more robust data management policies.”

Mesirow tells IndustryWeek he was surprised more manufacturers hadn’t implemented IoT to help prevent equipment from malfunctioning (44%), especially as the cost of these devices continues to go down.

“Any time equipment on the floor goes down, it can drastically impact operations and even bring them to a halt,” he says. “Since manufacturing relies so heavily on the equipment, I thought more manufacturers would have already either implemented IoT to track for repairs or planned to implement the tech, but only 27% of manufacturing executives expect to do so within two years.”

Ergonomics Recommendations for Remote Work
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Ergonomics Recommendations for Remote Work

The world has moved to a reality where many people are working from home and social distancing measures require a new normal. This means more and more people are working at a location other than their business office.

For a majority of individuals who are going to be working from home for the first time, getting the correct home office setup presents challenging problem – “Setting up an effective space that can be used for safe and productive work”. Sometimes space within the home is limited and office space may double as a dining space, kitchen counter or general use area.

Other times, a desk and chair are present, but may not have the adjustability needed to provide a suitable long-term work environment. When setting up the home work environment remember to implement ergonomics basics.

Implement Ergonomics Basics

Ergonomics is about fitting the tasks being performed to the capabilities of the human performing them. To this end, key ergonomic concepts can be summed up with one word ‘N-E-W’. Remembering this acronym will help people working at an office or home maintain productivity and more importantly, reduce injury risk.

N – Neutral Posture: Attain a proper posture while performing sitting or standing work; a neutral seated posture should include sitting with the neck straight, shoulders straight down loosely at the sides, elbows at a right angle, wrists straight, low back supported on the back rest of the chair, 90 o at the hips, 90 o at the knees, and feet flat on the floor or on a footrest.

E – Eye and Elbow Height: Whether seated and standing – ensure that the keyboard (ASDF home row) and mouse are positioned at the elbow level. The top of the monitor should be at or slightly below eye height.

W – Work Area: Keep items that are used often in the primary work zone (the area when elbows are at the sides and the hands are moved side to side, see figure); keep items that are used less often in the secondary work zone (area within the outstretched arms). In the office, the keyboard and mouse should be in the primary work zone, centered with the user and the monitors.

In addition to implementing the NEW principles, following some basic ergonomic tips will go a long way to reduce the risk of injuries (“musculoskeletal disorders or MSDs”) and increase the level of comfort without sacrificing the ability to stay productive.

Basic Ergonomic Tips

  1. Adjust the chair or seat height so that the thighs are approximately parallel to the floor with the feet resting flat on the floor or on a footrest. The seat pan should not compress the back of the thighs.
  2. Adjust the seat back – the lower back (lumbar area) plus mid-back should be well-supported. Adjust the seat back height, angle and tilt tension accordingly and sit back in the chair.
  3. Ensure that the ASDF row of the keyboard is at the elbow height for a sitting or standing workstation.
  4. Ensure forearms are approximately parallel to the floor – adjust the keyboard and mouse tray or desk height accordingly.
  5. Ensure wrists are straight and the hands are in line with the forearms – adjust the height and position of the keyboard tray to keep wrists flat.
  6. Keep elbows close to the sides – adjust arm rests so that the weight of the forearms rest on the arms rests. Avoid hunching the shoulders forward.
  7. Reduce the awkward postures of the neck, by placing the monitor at or slightly below the height while seated or standing.
  8. Ensure monitor is placed 20-40 inches (about an arm’s length) away from the eyes. The monitor distance should be about 20 inches when using a small screen or a laptop screen and further away as the screen size gets larger. Dual monitors should be located closely together and at the same height and distance so that the eyes do not have to re-focus and the head does not turn significantly when looking between the monitors.
  9. Reduce eye strain, take micro-breaks and follow the 20-20-20 rule. i.e. take a 20 second break every 20 minutes by looking at things at least 20 feet away.
  10. Incorporate stretch breaks – changes in posture throughout the day. Schedule work and strategically place peripherals so that prolonged seated posture can be avoided (placing the printer in another room would necessitate a micro-break to get up and walk).
  11. Position frequently used materials and equipment close to the front of the body (primary work zone) to avoid twisting and reaching.
  12. Ensure good task lighting when working on printed materials, and focused, diffused light for computer work. If the monitor is placed next to a window, the window should have a covering that prevents direct light on the monitor screen, or the monitor should be placed at a right angle to the window. Glare will cause eye fatigue and dryness. Adjust the tilt of the laptop screen to minimize screen glare. Use an anti-glare screen only as a last resort.

Various resources and tools are available to ensure ergonomic setup of office workstations. Some of these resources are listed below:

The key components in any office setup, whether at home or in a business office, include seating, the worksurface (table or desk), and external accessories such as keyboards, mice, monitors, and other peripherals. Some important characteristics of home office equipment include:

Seating: Ergonomic seating aims to increase individual efficiency, reduce fatigue, and facilitate proper posture. Unfortunately, the factors most often emphasized when selecting and purchasing chairs are cost and appearance. Seats that lack adjustability can result in poor working postures, which increase the likelihood of body discomfort or musculoskeletal disorders. Lack of adjustability almost guarantees some degree of static muscle loading (the same posture or position is held for an extended period without proper support e.g. unsupported arms while typing for extended time). Some questions that need be considered in the selection of chairs include:

  • Does the chair allow a neutral seated posture (as shown in the figure and as described above)?
  • How easy is it to make these adjustments?
  • Does the seat provide a lumbar support?
  • Is the lumbar support of the chair adjustable to the necessary height?
  • Does the seat have adjustable armrests?
  • Are the arm rests adjustable so that they support the arms in a neutral supported posture when the shoulders are comfortably at the sides?
  • Does the seat have swivel mechanism? Does the base have 5 feet, set in a star pattern, that are larger than the seat pan? Are the casters correct for the type of flooring?

Table/Desk: The work area should be adequate to hold the equipment needed to perform the work. In a typical office setup, there should be space for a laptop, external keyboard and mouse, and monitor (if present) as well as for any written or reference material that may be needed. The working height (desk or table) should so that the ASDF row of the keyboard is at elbow height. When seated, the feet should be flat on the floor or on a footrest. If possible, avoid glass topped tables and desks due to the glare. If using a laptop, place the laptop on the desk surface. Adjust the arm rests on the chair to fit the seated elbow height. Raise the seat of the chair so that the elbows are even with the desk. Move the desk lamp, if necessary, so that the light is not directed to the eyes. Avoid pressure points on the wrists and arms by staying away from the sharp edges of the table.

External Accessories: An external mouse is possibly the single most important accessory when working outside the office (on a laptop) for more than 20 minutes.

An external keyboard allows the flexibility to raise the laptop monitor to an ideal height for a neutral neck posture. This allows independent adjustment of both the laptop screen and the external keyboard to obtain a better position for both the arms and wrists as well as the neck.

Align the top of the monitor screen with the user’s seated eye height (when the user has no glasses, wears computer glasses, or wears single prescription lenses). If progressive, bi-focal, or tri-focal lenses are worn, position the monitor so that the neck is neutral (straight) while looking through the glasses to view the monitor. If more than one person is using the same setup, some monitor adjustability may be needed.

A laptop-stand or monitor riser can assist with proper monitor alignment. Place the monitor between 20 to 40 inches away from the face and so the top of the screen is at or below eye level. Make sure to give the eyes frequent breaks.

A footrest might be needed if the feet do not rest completely on the floor once the chair height has been properly adjusted. The footrest should be adjustable in height and inclination and provide sufficient area for the feet on the face surface of the nonskid bearing surface so that the feet do not slip off the footrest.

Smartphones, tablets, iPads and other devices have their own considerations. Below are some tips to keep in mind:

  • Use both hands to swipe, scroll and select items
  • Hold the device properly using a straight wrist
  • Keep the neck as close to upright as possible
  • Move and take frequent breaks

Home Office Do-It-Yourself (DIY) Suggestions

Seating: Find the best and most comfortable chair. A hard chair does not support the back or the lower extremities. A cushion provides both support to keep one comfortable and also provides a breathable fabric interface. Additionally, in order to attain a neutral posture, a cushion or memory foam can raise the seat height so that the elbows are closer to the work surface. If the seat does not have a lumbar support, use a pillow or a rolled-up towel. If a chair without arm rests is selected, consider pushing the keyboard and mouse back slightly to use the worksurface for forearm support.

Table/Desk: Select a proper work surface such as dining table or countertop. If a sit to stand type work desk is considered, use stable boxes or step stools to place the laptop or monitor on the work surface to attain the appropriate height for standing work. Make sure the edge of the work surface is not sharp. Sharp edges provide pressure points on wrists and forearms. A simple fix could be to line the worksurface edges with a table edge protector.

External Accessories: Connect a personal computer monitor or TV screen to the laptop. If the laptop (when using an external keyboard and mouse) or monitor are too low, they can be raised using books, boxes, or reams of paper.

If the feet do not comfortably rest on the floor, use a footrest. Footrests can be purchased or can be made by using stable boxes, reams of paper, step stools, etc. The aim should be to have a right angle at the knees and hips with feet comfortably supported.

In order to minimize external noise, use a headphone with a microphone for teleconference calls or to reduce outside noise while working. When possible, use the time during the calls to stand up, walk, and stretch.

During these exceptional times, people working from home can use these recommendations and ensure they can continue to work safely and productively. Although proper ergonomic setup can be obtained, it is important for individuals who have a history of related injuries (such as musculoskeletal disorders) and other disorders to seek the assistance of a certified professional ergonomists (CPEs).

The environment, chair, desk, mouse, keyboard and other items should be optimally designed and positioned based on the tasks performed, specific body measurements, and personal factors which only a well-trained ergonomist can determine, evaluate, and synthesize. Social distancing still can be followed by using remote or virtual ergonomic assessment techniques where ergonomists can obtain the most pertinent information to recommend an optimum workstation setup.

NAO Power V6 Standard Edition

Robots for developers

The latest version of NAO with 10 major areas of improvement is here! The result of a unique combination of mechanical engineering and software, NAO is a character made up of a multitude of sensors, motors and software piloted by a made-to-measure operating system: NAOqi OS.

The pack includes:

One NAO Power V6 (Dark Grey)

1 Charger and 1 Battery

2 years of warranty

Unlimited Choregraphe Licenses

Full SDK and API


Main Features

Fully-programmable humanoid robot


2 5-MP cameras, dual stream of the top and bottom cameras, tactile sensors, position sensors, 4 omnidirectional microphones, 8 force sensitive resistors.

Programming Languages

Drag&Drop, C++, Python, Java

Educational value

What’s in the box?

1 NAO Power V6 robot, unlimited Choregraphe Software Licenses, 1 Charger, 1 Battery, User manual

Mobile / stationary

Mobile robot more connected than ever with BlueTooth and a more efficient and faster Wifi.


Best for

Developers, Hospitals, Nursing Homes, Retail, Companies and Research Labs


Available as an option


NAO is designed to be personalized: add content, using a variety of capacities, enriching his personality and even developing new skills and know-how. NAO is your robot and the Choregraphe software will help you to personalize him.

7 senses for natural interaction

Moving: NAO has 25 degrees of freedom and a humanoid shape that enable him to move and adapt to the world around him. His inertial unit enables him to maintain his balance and to know whether he is standing up or lying down.

Feeling: The numerous sensors in his head, hands and feet, as well as his sonars, enable him to perceive his environment and get his bearings.

Hearing and speaking: With his 4 directional microphones and loudspeakers, NAO interacts with humans in a completely natural manner, by listening and speaking.

Seeing: NAO is equipped with two cameras that film his environment in high resolution, helping him to recognize shapes and objects.

Connecting: To access the Internet autonomously, NAO is able to use a range of different connection modes (WiFi, Ethernet).

Thinking: We can’t really talk about “Artificial Intelligence” with NAO , but the robots are already able to reproduce human behavior.

Participate in developing on NAO!

Anyone can contribute to NAO’s development by inventing new forms of use. Though the main applications are developed by the manufacturer SoftBank Robotics, NAO won’t grow on his own.

On the contrary, the platform that we offer opens the way for new creative models, aimed primarily at application developers, but not exclusively.

Animators, sound designers, graphic designers, linguists, or even education and reception specialists, people from all disciplines are equally invited to join the SoftBank Robotics community.

Creating, inventing, programming, and putting new content online will make NAO even more interesting!

A revolutionary platform for multiple use cases

As of today, more than 20,000 robots are used in multiple industry verticals making NAO the most used humanoid robot worldwide. Its design, capabilities and robustness make it an engaging and smart platform used in education, healthcare and retail.

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