Innovative IoT ideas for everyday life

Being so deeply integrated into our day-to-day lives, the IoT opens up unlimited opportunities for companies across a number of industries, including retail, healthcare, transportation & logistics, and manufacturing. Here are some Innovative IoT ideas for everyday life opens up unlimited opportunities for companies across a number of industries, including retail, healthcare, transportation & logistics, and manufacturing. Here are some Innovative IoT ideas for everyday life Home automation Home automation is probably one of the most popular areas for the consumer use of IoT devices.

Innovative IoT ideas for everyday life The opportunities here are endless: Smart home appliances – from smart lighting (Philips Hue) to appliances and utilities (Nest thermostat, and even smart cookers, ovens, smokers, scales and much more);Cleaning – robotic vacuum cleaners, window cleaners, or even lawn mowers;Personal assistants, like Alexa-powered Amazon Echo or Apple’s brand new HomePod with Siri;Control hubs – devices that allow you to control other connected devices (for example, SmartThings or LG Home Chat hub); andAutonomous security systems – SkylinkNet alarm system, various surveillance cameras, motion sensors, smoke detectors, smart doorbells and locks, etc. Retail & Inventory management Retail & Inventory management was among the first industries to capitalize on the IoT trend.

Innovative IoT ideas for everyday life Among the most popular IoT ideas in this sphere are Proximity-based advertising – beacons. Bluetooth low-energy devices send out notifications and small amounts of promotional content to mobile devices nearby. They are widely used across retail. Another common use case for beacons is with indoor navigation. Their applications is there in shopping malls and large supermarkets to help customers find the items they need.Real-time inventory management.RFID tags attached to the items in stock helps in Goods tracking. “Smart” shelves equipped with special readers can alert the store staff before the items go out of stock.“No checkout” stores, such as Amazon Go can be implemented with the help of IoT sensors paired with computer vision. Transportation & Logistics Transportation & Logistics can benefit greatly from IoT technologies as well: Self-driving cars currently take the center stage in this area as more leading tech companies join the competition. From autonomous cars developed by Tesla, Google, and Uber; to driverless trucks, like Otto, tractors, buses, etc.Freight monitoring and fleet management is another way for logistics to benefit from IoT. By using various sensors to track the vehicles and shipments, the companies will be able to efficiently allocate resources and gain a higher level of transparency. Smart Сities “Smart Сities” is an umbrella term for the IoT technologies. They help to optimize the urban environment and make it more efficient and convenient. Top areas of innovation in this domain are

Innovative IoT ideas for everyday life Parking – Startups like Parkifi are using IoT sensors to tag parking spots. This provides users with real-time info about parking availability, and it automates the payment and check-in/out processes.Waste collection – Similarly, IoT sensors helps to optimize garbage collection. As soon as a bin is full, the system gets a notification and can plan the next route accordingly (A similar solution was deployed in Rotterdam).Outdoor lighting and traffic signals can be equipped with motion sensors that are able to identify movement (a pedestrian or a vehicle approaching). On detection of any movement, the lights are turned on. Instead of being on all night, this helps cities reduce their energy consumption and waste. Industrial IoT Industrial IoT is one of the most promising areas of investment. In 2016, the startups that brought innovation to their industry have attracted over $2.2 billion investments. Some of the most prominent use cases for IoT are: Sensors help in malfunctions detection and reporting. This helps in identifying and preventing equipment failure.Environmental metrics collected by the connected sensors can help optimize and automate the operations typically taking place in the field such as oil and gas production, construction, and mining. Read the full article

IoT in agriculture

There are many types of IoT sensors for agriculture as well as IoT applications in agriculture in general. Here is the list of applications of IoT in agriculture. Monitoring of climate conditions

IoT in agriculture Probably the most popular smart agriculture gadgets are weather stations, combining various smart farming sensors. Located across the field, they collect various data from the environment and send it to the cloud. The provided measurements can be used to map the climate conditions, choose the appropriate crops, and take the required measures to improve their capacity. This is known as precise farming. Some examples of such agriculture IoT devices are allMETEO, Smart Elements, and Pycno. Greenhouse automation In addition to sourcing environmental data, weather stations can automatically adjust the conditions to match the given parameters. Specifically, greenhouse automation systems use a similar principle.

IoT in agriculture For instance, Farmapp and Growlink are also IoT agriculture products offering such capabilities among others. GreenIQ is also an interesting product that uses smart agriculture sensors. It is a smart sprinklers controller that allows you to manage your irrigation and lighting systems remotely. Crop management One more type of IoT product in agriculture and another element of precision farming are crop management devices. Just like weather stations, they should be placed in the field to collect data specific to crop farming; from temperature and precipitation to leaf water potential and overall crop health.

IoT in agriculture Thus, you can monitor your crop growth and any anomalies to effectively prevent any diseases or infestations that can harm your yield. Arable and Semios can serve as good representations of how this use case can be applied in real life. Cattle monitoring and management Just like crop monitoring, there are IoT agriculture sensors that can be attached to the animals on a farm to monitor their health and log performance. This works similarly to IoT devices for petcare.

IoT in agriculture For example, SCR by Allflex and Cowlar use smart agriculture sensors (collar tags) to deliver temperature, health, activity, and nutrition insights on each individual cow as well as collective information about the herd. End-to-end farm management systems A more complex approach to IoT products in agriculture can be represented by the so-called farm productivity management systems. They usually include a number of agriculture IoT devices and sensors, installed on the premises as well as a powerful dashboard with analytical capabilities and in-built accounting/reporting features.

IoT in agriculture This offers remote farm monitoring capabilities and allows you to streamline most of the business operations. Similar solutions are represented by FarmLogs and Cropio. In addition to the listed IoT agriculture use cases, some prominent opportunities include vehicle tracking (or even automation), storage management, logistics in the other processes of agriculture. Read the full article

IoT in agriculture

There are many types of IoT sensors for agriculture as well as IoT applications in agriculture in general. Here is the list of applications of IoT in agriculture. Monitoring of climate conditions

IoT in agriculture Probably the most popular smart agriculture gadgets are weather stations, combining various smart farming sensors. Located across the field, they collect various data from the environment and send it to the cloud. The provided measurements can be used to map the climate conditions, choose the appropriate crops, and take the required measures to improve their capacity. This is known as precise farming. Some examples of such agriculture IoT devices are allMETEO, Smart Elements, and Pycno. Greenhouse automation In addition to sourcing environmental data, weather stations can automatically adjust the conditions to match the given parameters. Specifically, greenhouse automation systems use a similar principle.

IoT in agriculture For instance, Farmapp and Growlink are also IoT agriculture products offering such capabilities among others. GreenIQ is also an interesting product that uses smart agriculture sensors. It is a smart sprinklers controller that allows you to manage your irrigation and lighting systems remotely. Crop management One more type of IoT product in agriculture and another element of precision farming are crop management devices. Just like weather stations, they should be placed in the field to collect data specific to crop farming; from temperature and precipitation to leaf water potential and overall crop health.

IoT in agriculture Thus, you can monitor your crop growth and any anomalies to effectively prevent any diseases or infestations that can harm your yield. Arable and Semios can serve as good representations of how this use case can be applied in real life. Cattle monitoring and management Just like crop monitoring, there are IoT agriculture sensors that can be attached to the animals on a farm to monitor their health and log performance. This works similarly to IoT devices for petcare.

IoT in agriculture For example, SCR by Allflex and Cowlar use smart agriculture sensors (collar tags) to deliver temperature, health, activity, and nutrition insights on each individual cow as well as collective information about the herd. End-to-end farm management systems A more complex approach to IoT products in agriculture can be represented by the so-called farm productivity management systems. They usually include a number of agriculture IoT devices and sensors, installed on the premises as well as a powerful dashboard with analytical capabilities and in-built accounting/reporting features.

IoT in agriculture This offers remote farm monitoring capabilities and allows you to streamline most of the business operations. Similar solutions are represented by FarmLogs and Cropio. In addition to the listed IoT agriculture use cases, some prominent opportunities include vehicle tracking (or even automation), storage management, logistics in the other processes of agriculture. Read the full article

IoT in agriculture

There are many types of IoT sensors for agriculture as well as IoT applications in agriculture in general. Here is the list of applications of IoT in agriculture. Monitoring of climate conditions

IoT in agriculture Probably the most popular smart agriculture gadgets are weather stations, combining various smart farming sensors. Located across the field, they collect various data from the environment and send it to the cloud. The provided measurements can be used to map the climate conditions, choose the appropriate crops, and take the required measures to improve their capacity. This is known as precise farming. Some examples of such agriculture IoT devices are allMETEO, Smart Elements, and Pycno. Greenhouse automation In addition to sourcing environmental data, weather stations can automatically adjust the conditions to match the given parameters. Specifically, greenhouse automation systems use a similar principle.

IoT in agriculture For instance, Farmapp and Growlink are also IoT agriculture products offering such capabilities among others. GreenIQ is also an interesting product that uses smart agriculture sensors. It is a smart sprinklers controller that allows you to manage your irrigation and lighting systems remotely. Crop management One more type of IoT product in agriculture and another element of precision farming are crop management devices. Just like weather stations, they should be placed in the field to collect data specific to crop farming; from temperature and precipitation to leaf water potential and overall crop health.

IoT in agriculture Thus, you can monitor your crop growth and any anomalies to effectively prevent any diseases or infestations that can harm your yield. Arable and Semios can serve as good representations of how this use case can be applied in real life. Cattle monitoring and management Just like crop monitoring, there are IoT agriculture sensors that can be attached to the animals on a farm to monitor their health and log performance. This works similarly to IoT devices for petcare.

IoT in agriculture For example, SCR by Allflex and Cowlar use smart agriculture sensors (collar tags) to deliver temperature, health, activity, and nutrition insights on each individual cow as well as collective information about the herd. End-to-end farm management systems A more complex approach to IoT products in agriculture can be represented by the so-called farm productivity management systems. They usually include a number of agriculture IoT devices and sensors, installed on the premises as well as a powerful dashboard with analytical capabilities and in-built accounting/reporting features.

IoT in agriculture This offers remote farm monitoring capabilities and allows you to streamline most of the business operations. Similar solutions are represented by FarmLogs and Cropio. In addition to the listed IoT agriculture use cases, some prominent opportunities include vehicle tracking (or even automation), storage management, logistics in the other processes of agriculture. Read the full article

Things to consider for smart farming

The use cases for the Internet of Things (IoT) in agriculture are endless. There are many ways smart devices can help you increase your farm’s performance and revenue. However, agriculture IoT apps development is no easy task. There are certain challenges you need to be aware of if you are considering investing in smart farming. Here is a list of things to consider for smart farming. The hardware To build an IoT solution for agriculture, you need to choose the sensors for your device (or create a custom one). Your choice will depend on the types of information you want to collect and the purpose of your solution in general. In any case, the quality of your sensors is crucial to the success of your product: it will depend on the accuracy of the collected data and its reliability. The Data analytics Data analytics should be at the core of every smart agriculture solution. The collected data itself will be of little help if you cannot make sense of it. Thus, you need to have powerful data analytics capabilities and apply predictive algorithms and machine learning in order to obtain actionable insights based on the collected data. The maintenance Maintenance of your hardware is a challenge that is of primary importance for IoT products in agriculture, as the sensors are typically used in the field and can be easily damaged. Thus, you need to make sure your hardware is durable and easy to maintain. Otherwise you will need to replace your sensors more often than you would like. The mobility Smart farming applications should be tailored for use in the field. A business owner or farm manager should be able to access the information on site or remotely via a smartphone or desktop computer. Plus, each connected device should be autonomous and have enough wireless range to communicate with the other devices and send data to the central server. The infrastructure To ensure that your smart farming application performs well and to make sure it can handle the data load, you need a solid internal infrastructure. Furthermore, your internal systems have to be secure. Failing to properly secure your system only increases the likeliness of someone breaking into it, stealing your data or even taking control of your autonomous tractors. Read the full article

Popular robots used in the US military

One of the main goals of robots is to do jobs that are too dangerous for humans. In some cases, it can be a repetitive task that might eventually lead to injuries or task that is directly in contact with a particular danger. Robots with Artificial Intelligence help in different ways in the US military. And here is the list of popular robots used in the US military. MAARS The MAARS (Modular Advanced Armed Robotic System) with it modular design allows the controller to outfit it variety of armaments, ranging from lasers to tear gas. Powerful, modular and combat-ready, the Modular Advanced Armed Robotic System (MAARS) is an unmanned ground vehicle (UGV). It is designed specifically for reconnaissance, surveillance, and target acquisition (RSTA) missions. It helps to increase the security of personnel manning forward locations. MAARS can be positioned in remote areas where personnel are currently unable to monitor their security. And it can also carry either a direct or indirect fire weapon system.

MAARS-Popular robots used in the US military

SAFFir

Firefighting is one of the most dangerous jobs in the world. And so it is natural to want to find ways to save human life.SAFFir's design support functions in the military. This robot developed by Virginia Tech engineering students. It can extinguish fires that break out on Naval ships and is still under development. SAFFir help to avoid potential injuries as a result of this dangerous task.

SAFFIR-Popular robots used in the US military The SAFFiR project is all about helping firefighters in their everyday job. The project is a collaboration between Virginia Tech's Terrestrial Robotics Engineering and Controls Lab (TREC), Extreme Environments, Robotics & Materials Laboratory and the U.S. Navy. The goal is to, eventually, better assist sailors in fighting fires, controlling damage and carrying out inspections onboard ships. SAFFiR is short for Shipboard Autonomous Firefighting Robot. The robot reminds a little of the Boston Dynamics ATLAS. However, the students from Virginia Tech seem to have started from scratch. There are various departments working on the development of the robot. They appear to have incorporated very particular technology into the way the robot moves. 

Gladiator

Gladiator assists the US Marine Corps in various operations. It can outfit with various modular tools and armaments depending on the situation. It runs at 10 miles per hour and allows to mount machine guns and grenade launchers.

Gladiator-Popular robots used in the US military The Gladiator Tactical Unmanned Ground Vehicle (Gladiator TUGV) program was developed in order to support the United States Marine Corps.  conduct of Ship To Object Maneuver (STOM) missions through the use of a medium-sized, robotic system to minimize risks and eliminate threats to Marines during the conflict. The Gladiator is able to perform surveillance, reconnaissance, assault and breaching missions within its basic technical configuration. Read the full article

How to protect Law firms from data stealing???

Happens all the time, right? Turns out, it’s happening a lot more than people think and many governments, IT professionals and the hackers are all taking notice. Why?

Policies to secure phones and tablets are difficult to craft and even more difficult to enforce (sometimes). Unlocked ‘toys’ represent a ‘back door’ to all the corporate data. Hackers Come In All Shapes And Sizes

Law Firms Are A Gold Mine Of Information The reasons law firms are increasingly a target for security breaches include One-stop-shops – Law firms contain a wide array of ‘good’ data. Personal information, corporate information, intellectual property – all in one place!. Quantity and quality of the data – The attorney-client privilege ensures that there is a host of great information in one place Demanding audience – Lawyers expect all their information to be maintained at arm’s reach. This makes it much easier for nefarious resources to harvest that information as well. Latest technology – Many lawyers love to use the latest toys but they often fail to protect them. No endpoint – Law firms have no endpoint for access. Mobile workforce, personal devices, mixed devices, other people’s devices (traveling or on a shared device) mean that there is no endpoint to close the loop on security. There is almost always an access point.

Data breach – Agents looking to acquire the good stuff like Social Security numbers account information, etc. The best targets for this information include employment firms. Intellectual property hack – Targeting trade secrets, trademarks, patents, research, and development, etc. Destruction of data hack – The goal here is to destroy information and this has been the least common in the legal industry. That said, the more firms rely on hosted solutions to manage information, the higher the risks become for this type of event. Hack the medium – Breaches where the hacker targets the very systems designed to keep things safe. The mode of attack on the legal community falls into two primary categories – phishing and (what I call) shadowing. Phishing tactics often employ emails links. This is especially easy in law firms as so much work is done through email. Shadowing is another approach where hackers target individuals with access to the firm’s network and data. The find ways to watch you access your company’s network from home, through remote access or most importantly – through social media. Both options offer a direct means to private client data. So if we understand the reasons firms are targeted and what information is being targeted – what is a firm to do? Preventing Infiltration (The Castle Approach)

The vast majority of the products and services in place today are what many refer to as the ‘Castle Approach’. Build the castle walls, moats, more walls, towers, and defensive lines to one thing – keep the bad guys out. Firewalls, Antivirus, DMZ’s and authentication are all products and tools of the Castle Approach. Much of the new discussion, however, is about blending this approach with the second – which is data exfiltration. Preventing Exfiltration (You Can Go, But The Data Stays Here) Thus working to keep information from leaving is an equally important element in avoiding client data loss for the firm. For the small to midsized (SMB) firms with limited means to invest in the latest exfiltration technologies should look to first identify security or risk vulnerabilities. Questions such as What information is most sensitive and where is it stored? Is this information widely available once users have access to the network? Do we restrict the movement of this information within the company? Is our network configured to recognize the movement of information outside the network and can it ‘close the door’ if it identifies substantial outbound data movement? It is critical for law firm administrators, IT professionals and firm executives to reflect on these questions. There are many considerations and technology options to accomplish this, however, the first step should simply be Training and education of the employees. Many of the issues faced by the SMB legal industry can be avoided with proper training, advanced planning for security and a plan for handing threat intrusions when they do happen. The second step is to discuss technical options with your IT / Security team to see what tools may fit your business, risk tolerance, and budget. How Blockchain would help! A blockchain is a distributed database that maintains a continuously growing list of records that are secured from tampering and revision. It consists of data-structure blocks that may contain data or programs, with each block holding batches of individual transactions, and the results of any blockchain executables. Every node in a decentralized system has a copy of the blockchain. No centralized "official" copy exists and no user is "trusted" more than any other. To be precise, a blockchain is an append-only database with transaction order and the following data protection properties: Immutable data storage Secure time-stamping Public audit

What constitutes personal data in a blockchain?

While the concept of personal data is set to become broader under GDPR, it is unknown whether public keys constitute personal information – while these do not have the same features as anonymous data, their characteristics are similar.

Secure data

From a security perspective, blockchain technology helps to make online data transmission secure by eliminating middlemen and singular control. Because the blockchain is completely decentralized, there is no single source controlling it.

Why blockchains are great for data protection

Blockchains are safe because they make use of digital signatures, time-stamping and encryption. This facilitates a secure means of managing and storing all sorts of information, including personal data. Because the data is not centralized, it means that opportunities for cybercrime are hugely reduced in comparison to data stored on a single server. Though there rise so many complications among all the industries "Future Technology" brings promising solutions. Similarly, every new technology has its own pros and cons but the next generation inventions keep finding the solution for them. Read the full article

Three ways robots can save lives in war

There are risks and downsides of weaponized artificial intelligence (AI), but there are upsides too. Robots offer greater precision in attacks, reduced risk of collateral damage to civilians, and reduced risk of “friendly fire”. AI weapons are not being developed as weapons of mass destruction. They are being developed as weapons of precise destruction. Military AI facilitates ever greater precision and ever greater compliance with international humanitarian law. There are at least three ways robots can save lives in war. Bomb disposal Bomb disposal robots reduce risk to humans. Mostly remotely operated, they have little autonomy and are used to investigate and defuse or detonate improvised explosive devices. https://youtu.be/TCAc2pYdaeA As robots become more dexterous and agile there will come a time when there is no need for a human to be next to a bomb to defuse it. Room-by-room clearing Room by room clearing is one of the riskier infantry tasks. In World War II, pressure sensors under whiskey bottles and packets of cigarettes triggered booby traps. Human troops entering houses often succumbed to the allure of smokes and booze and killed. Today ISIS fighters disguise booby traps as bricks and stones. International humanitarian law specifically prohibited these. In theory, with smaller versions of sensors of the kind used to inspect luggage at airports, robots could perceive the wiring and pressure sensors associated with such booby traps. https://youtu.be/MOT1HatBBw4 Robots like the Pointman Tactical Robot and the iRobot Negotiator are already capable of entering buildings, climbing stairs and moving over obstacles to search buildings. More agile humanoid (or animal-like) versions of these robots can help to clear buildings of booby traps and enemy fighters seeking to ambush troops. Maintaining safety zones It’s plausible that robots could contribute to maintaining perimeter security in the near future. Military robot technology could be used to enforce safe havens that protect unarmed civilian refugees from genocides similar to those that happened in Srebrenica and Rwanda, and unlawful bombing as is ongoing in Syria. Much of the technology you could use is already available “off the shelf” from equipment vendors. Surface-to-air missile defense systems that can target missiles, aircraft and artillery shells such as Raytheon’s Patriot and Phalanx have been in production for decades. Sentry robots such as the Hanwha Techwin (formerly Samsung Techwin) SGR-A1 and the DoDamm SuperAegis II are also currently available and widely fielded. Machines have achieved superhuman performance in the games Chess, Jeopardy and Go. With sufficient research, superhuman performance in ethics may become possible too. Robots are a double-edged sword. Used badly, they can perpetrate genocide and war crimes. Used well, they can prevent them. Read the full article

The Next Chinese Robot Warships

In the western Pacific, China already has an advantage in ships numbers compared to the United States. If the Chinese fleet acquires large numbers of inexpensive robotic vessels, that advantage could grow. The Chinese company has revealed a design for a small robotic warship that could compete with unmanned warships the United States is developing. The next Chinese Robot warships are getting ready. Unmanned ships could help to extend Beijing's regional naval advantage over the U.S. fleet.China Shipbuilding and Offshore International Company at the IDEX-2019 trade show in Abu Dhabi showed off a model of an armed, crewless boat. JARI The JARI unmanned surface vehicle is 49 feet long and displaces 20 tons of water, Defense News reported. It can sail for around 500 miles at a top speed of 42 knots, according to the trade publication.

The Next Chinese Robot Warships The JARI comes equipped with electro-optical sensor atop a superstructure, a phased array radar, a dipping sonar, eight small vertical launch system cells, a torpedo launcher, and a forward mounted machine gun and rocket launcher for counter-surface engagements. According to the product video, the drone appears to be modular and reconfigurable for the different mission areas, but it’s unclear what missions are permanently integrated into the system. In the video, JARI is shown alternately shooting down an aerial drone, sinking a submarine, machine-gunning a RHIB full of adversaries trying to steal it (after firing warning shots) and sinking a surface ship that looked a little like a littoral combat ship. It's unclear how autonomous JARI is and where human operators are in its control system. JARI made its public debut as the U.S. Navy was getting ready to begin developing its own robotic warships. Size of the warships The programs could cover at least two types of unmanned surface vessel. One is a medium-size unmanned surface vessel around the size of the Defense Advanced Research Agency's 132-feet-long experimental Sea Hunter robot ship. "The medium USVs will act as scouts and decoys, carrying sensors and jammers," Breaking Defense reported.  There's also a larger USV around the size of conventional corvette, which would provide additional punch, loaded with missile launchers but relying on other vessels to find the enemy and relay targeting data. Manufacturing and maintaining the additional ships would cost as much as $23 billion a year, according to the Congressional Research Service. For years, the Navy’s annual shipbuilding budget has been around $15 billion. All together, the Chinese fleets operate no fewer than 650 ships with military missions. Add the U.S. Navy's ships to those of Military Sealift Command and the U.S. Coast Guard and you get 645 vessels. All three major Chinese sea forces remain focused first and foremost on the contested near seas and their immediate approaches, close to China’s homeland, land-based air and missile coverage and supply lines. Read the full article

5 Military Robots of the Future

The growth and advancement in technology are high. The use of Artificial Intelligence in defense has increased a lot and it is the need of the hour. We have rounded up the 5 Military Robots of the Future in this article. Atlas Atlas is the latest in a line of advanced humanoid robots. Its' control system coordinates motions of the arms, torso and legs to achieve whole-body mobile manipulation, greatly expanding its reach and workspace.  Its' ability to balance while performing tasks allows it to work in a large volume while occupying only a small footprint.   The Atlas hardware takes advantage of 3D printing to save weight and space, resulting in a remarkable compact robot with high strength-to-weight ratio and a dramatically large workspace.  Stereo vision, range sensing and other sensors give Atlas the ability to manipulate objects in its environment and to travel on rough terrain.  Atlas keeps its balance when jostled or pushed and can get up if it tips over.  https://youtu.be/rVlhMGQgDkY Avatar III Security Robots Security personnel can use Avatar III Security Robots to inspect multiple incidents, conduct simultaneous patrols, and communicate remotely with subjects of interest. Avatar III Security Robots can significantly augment your existing security capabilities. Robots stationed around an area can be activated at a moment’s notice to inspect a situation of interest – significantly reducing incident response times in the process. Avatar III Security Robots can be used hundreds of miles away from a central Security Operations Center – they run through your existing Wi-Fi network and recharge at remote docking stations that plug into existing power outlets.

5 Military Robots of the Future Wireless, real-time video and two-way audio feeds allow the robot to act as a mobile camera platform, public announcement system, and remote communication tool. Stair climbing ability, built-in IR night vision, and dock-connector charging work to ensure the full range of movement for robot security patrols. The robot’s rugged track system also works almost anywhere – carpets, wet floors, rugged outdoor terrain, slick concrete. CRACUNS Researchers at the Johns Hopkins University Applied Physics Laboratory (APL) have developed an unmanned aerial vehicle (UAV) that can stay on station beneath the water, then launch into the air to perform a variety of missions. The Corrosion Resistant Aerial Covert Unmanned Nautical System (CRACUNS) is a submersible UAV that can be launched from a fixed position underwater, or from an unmanned underwater vehicle (UUV). The most innovative feature of CRACUNS is that it can remain at and launch from a significant depth without needing structural metal parts or machined surfaces. https://youtu.be/o17x3XTA-DM Spartacus Developed in partnership with Bobcat Company, the Spartacus robot comes in a number of variants ranging in weight from 5,000lbs to 12,500lbs.

5 Military Robots of the Future The smallest in the Spartacus line is the robotic Bobcat T-110 diesel powered skid steer loader, which, as an example, can be equipped with mine rollers and command wire rakes designed to seek out buried munitions and command wires, as widely used by the US Army in Afghanistan. Bobcat has over 80 tools for their loaders, making Spartacus a highly versatile family of robots. All Bobcat loaders with SJC (Selectable Joystick Controls) – from the T-110 to the largest T-870 – can be equipped with QinetiQ’s Robotic Appliqué Kit. Flexible radio options give operators an array of frequency solutions. RiSE Another robot out of Boston Robotics can save soldiers from having to climb perilous heights. RISE is an insect-like climbing robot that uses micro-clawed feet to nimbly scale textured surfaces, such as walls, fences, and trees. Unlike RiSE V1 and RiSE V2 this newer version adopts a quadrupedal configuration, and was designed by Boston Dynamics, with input from the RiSE Project consortium.

5 Military Robots of the Future RiSE V3 uses brushless DC motors that increase power density. Coupled with a dramatically different leg mechanism and unique gaited behavior, this robot exhibits rapid climbing (upwards of 22 cm/s) up a vertical surface such as a telephone pole. Ongoing work will study locomotion on horizontal terrain, as well as climbing on a wide variety of surfaces. Read the full article

India now wants AI-based weapon systems

It is the need of an hour for Indian armed forces to have Artificial Intelligence-based weapons to fight against its enemy countries. The global countries are heading towards the AI-powered weapon system. With recent terrorist attack at Pulwama, India has lost more than 40 lives. India now wants AI-based weapon system for Indian armed force. The world countries like US and China are competing with each other and are trying to be world leaders. Combat Robots The idea of combat robots carrying heavy armaments in military might make people nervous. But robots are being largely resorted as a way to dramatically reduce the loss of life and introducing support purposes. The surge in these combat robots is raising the possibility of a Cold War-style race to build offensive and defensive bot technology. But these may revolutionize the way battles are fought in the future. US military and AI A top British intelligence expert claims the US military will have more robot soldiers on the battlefield than real ones by 2025. It also suggests that deadly combat robots are rapidly becoming a reality of modern-day warfare. The US have been using unmanned aerial vehicles and drones for surveillance in terrorist prone countries for quite some time. Robots are speeding traction for battles on the ground. As for the US, Pentagon announced a heavy investment in developing prototypes for a combined-arms squad. This state-of-the-art military unit will include both human soldiers and robot aiming to maximize the performance on future battlefields. With the high tech advancements, the idea is to improve capabilities in military and maximize squad performance in increasingly complex operational environments. China developing next gen army China is pacing up its activities quite strenuously seeking AI and robotics for surveillance and military purposes. It was recently reported that China’s military is funding the development of new AI drove capabilities. It helps in battlefield decision making and autonomous weaponry. China is aiming to become a military technical superpower and catch up with US and Russian armed forces. It had selected 120 top specialists to work in the development of artificial intelligence for military purposes. Most of them have PhDs in AI. Anbot is an armed police robot that can catch a maximum speed of 11 mph. National Defense University developed this Anbot robot. It helps to patrol in areas of danger and can deploy an “electrically charged riot control tool.”

India now wants AI-based weapon systems India now wants AI-based weapon systems Indian Army plans to use hundreds of indigenously built robots to fight terrorists in Jammu and Kashmir. These robots can reportedly deliver ammunition at the intended locations in case of unsafe and emergency situations. There were few reports that suggested defense ministry has already approved an army proposal to induct 544 robots for the purpose. These robots are lightweight and consist of surveillance cameras and transmission systems with a range of 200 meters. As the instances of terrorism are expanding, there is a need for adopting robotic security in surveillance. RR forces (Rashtriya Rifles) can extensively use these robotic surveillance platforms. They gathe real-time input prior to manual insertion. Army aims that it should be able to deliver suitable ammunition such as stun grenade. The security forces are also using Daksh. DRDO developed it. And it can climb stairs, lift 20 kg loads and has three-hour battery life. It can be operated with remote within a range of 500 metres. It is being used largely for handling explosives. The CAI has also been developing Multi-Agent Robotics Framework (MARF)—which could be used in scenarios like the Pathankot Attack—which is capable of carrying applications like surveillance, exploration and mapping, search, and rescue, among others. It is really important for Indian government to built AI-based weapon system to help the lives of Indian people. Read the full article

India now wants AI-based weapon systems

It is the need of an hour for Indian armed forces to have Artificial Intelligence-based weapons to fight against its enemy countries. The global countries are heading towards the AI-powered weapon system. With recent terrorist attack at Pulwama, India has lost more than 40 lives. India now wants AI-based weapon system for Indian armed force. The world countries like US and China are competing with each other and are trying to be world leaders. Combat Robots The idea of combat robots carrying heavy armaments in military might make people nervous. But robots are being largely resorted as a way to dramatically reduce the loss of life and introducing support purposes. The surge in these combat robots is raising the possibility of a Cold War-style race to build offensive and defensive bot technology. But these may revolutionize the way battles are fought in the future. US military and AI A top British intelligence expert claims the US military will have more robot soldiers on the battlefield than real ones by 2025. It also suggests that deadly combat robots are rapidly becoming a reality of modern-day warfare. The US have been using unmanned aerial vehicles and drones for surveillance in terrorist prone countries for quite some time. Robots are speeding traction for battles on the ground. As for the US, Pentagon announced a heavy investment in developing prototypes for a combined-arms squad. This state-of-the-art military unit will include both human soldiers and robot aiming to maximize the performance on future battlefields. With the high tech advancements, the idea is to improve capabilities in military and maximize squad performance in increasingly complex operational environments. China developing next gen army China is pacing up its activities quite strenuously seeking AI and robotics for surveillance and military purposes. It was recently reported that China’s military is funding the development of new AI drove capabilities. It helps in battlefield decision making and autonomous weaponry. China is aiming to become a military technical superpower and catch up with US and Russian armed forces. It had selected 120 top specialists to work in the development of artificial intelligence for military purposes. Most of them have PhDs in AI. Anbot is an armed police robot that can catch a maximum speed of 11 mph. National Defense University developed this Anbot robot. It helps to patrol in areas of danger and can deploy an “electrically charged riot control tool.”

India now wants AI-based weapon systems India now wants AI-based weapon systems Indian Army plans to use hundreds of indigenously built robots to fight terrorists in Jammu and Kashmir. These robots can reportedly deliver ammunition at the intended locations in case of unsafe and emergency situations. There were few reports that suggested defense ministry has already approved an army proposal to induct 544 robots for the purpose. These robots are lightweight and consist of surveillance cameras and transmission systems with a range of 200 meters. As the instances of terrorism are expanding, there is a need for adopting robotic security in surveillance. RR forces (Rashtriya Rifles) can extensively use these robotic surveillance platforms. They gathe real-time input prior to manual insertion. Army aims that it should be able to deliver suitable ammunition such as stun grenade. The security forces are also using Daksh. DRDO developed it. And it can climb stairs, lift 20 kg loads and has three-hour battery life. It can be operated with remote within a range of 500 metres. It is being used largely for handling explosives. The CAI has also been developing Multi-Agent Robotics Framework (MARF)—which could be used in scenarios like the Pathankot Attack—which is capable of carrying applications like surveillance, exploration and mapping, search, and rescue, among others. It is really important for Indian government to built AI-based weapon system to help the lives of Indian people. Read the full article

3 Ways Technology Enhances Your Daily Yoga Session

As the world evolves, two paths have emerged that appear to be seemingly irreconcilable. There are those who are moving forward through science and technology, and others who are seeking ancient wisdom and inner experience. In light of these two viewpoints, however, a third path has emerged. There are a number of people who are desperately trying to find a balance between an advancing technological world and the serenity of a life focused on consciousness and awareness. Thankfully, this is a time when the divide between the old, beneficial practices and current advancements in yoga is disappearing. For yoga enthusiasts, there have been several products introduced to the market which intend to enhance your practice through technology. Aside from apps and websites dedicated to yoga, there are hardware devices which can also help you. Here are a few technological advances that are making waves within the yoga community. Even though some of these products haven’t been released yet, their development is promising for the future of the yogic lifestyle and consciousness-based medicine.

Techy Yoga Clothes

One of the mergers between yoga and technology has been the creation of interactive clothing. A few innovative companies are weaving sensors into common garments, such as yoga pants, shirts, and even shoe inserts, to give you feedback about your body and positioning. These clothes are designed to be paired with a corresponding app on your smartphone or tablet, which receives and translates the data for your use. Some of the more ambitious brands go so far as to actually give you guidance about your practice. For example, Wearable X has launched their Nadi X yoga pants, which provide gentle vibration during your yoga flow to let you know when you are out of alignment. Imagine the progress you could make in your at-home practice if your yoga pants “told” you where your imbalances are. The Nadi X can be pre-ordered via their website and is scheduled to ship as early as August 2017. Another upcoming release is Move by Electricfoxy, an app which will allow you to: Set specific goals Challenge friends Share progress Move also uses sensations from your garment to correct inconsistencies in your movements. If this particular product holds up to its promises, you will be able to receive direction from your instructor or other experts via the app on specifics of your practice. Another company taking advantage of this kind of technology is Athos, a brand which offers activated apparel for athletes of all kinds. While their clothing is not specifically geared toward yoga, their usefulness in giving detailed feedback is something very exciting. Athos gear works similarly to the aforementioned clothes, while also monitoring your heart rate and real-time muscle activity. They have even partnered with professional athletes and organizations to aid in player injuries. While you may not be an NFL player or tennis pro, this kind of data can be useful in rehabilitation efforts and for those yogis who face specific physical challenges.

Intelligent Yoga Mats

Intelligent yoga mats may be the most promising future technology on the horizon for yogis. Once again, using sensors synced to your smartphone or tablet, these products could really be a boost to your yoga practice when used correctly. Several forward-thinking companies have been looking into producing a yoga mat that will not only guide you in your yoga flow but also correct the inconsistencies in your balance and posture. While most of these are still “in the works,” you may see them at your local yoga studio sooner than you think. One of these products in development is the SmartMat. Currently available for pre-ordering, this mat boasts real-time feedback and guidance, while allowing you to track and store your progress through the app. The Tera fitness mat by Lunar, a European tech company, can track your movement during several exercises you can perform at home, including: Yoga Pilates Tae Bo The app offers guidance and feedback on your movements and body pressure. This mat is round and lights up (think Simon game from the ‘80s) to show you where to move next and whether your posture is in sync with the guided flow.

Interactive Apps

Yoga-centered apps for your smartphone or tablet are another form of technology already available on the market. There are many options out there, but a few stand-outs have a lot of promise. For the most part, these apps are very similar. They all offer guidance from experts with pictures or videos to support your practice. Three effective apps to explore include: Down Dog Daily Yoga Yoga Studio by Gaiam Since this form of yoga technology has been developing for some years now, there are many apps to check out. When selecting the app that’s right for you, take into account important things such as: Usability Validity of information Feedback features Logging personal information Tracking progress While you are exploring yoga-centric apps, you might also consider using Muse during meditation. This headband uses brain-sensing technology to measure whether your mind is calm or active. And translates those signals into guiding sounds. Through the iOS app, you can choose sessions based on Dr. Deepak Chopra’s teachings around essential nature, breath, and inner quiet. Learning how to calm your mind is an important tool for improving your yoga practice, and can do wonders for Savasana. An app called Jiyo, which yogis will find especially helpful. It, however, is not specifically asana-focused app. This app works by syncing with your phone and/or fitness trackers to help you monitor your health in a holistic way. Depending on your condition and activity, Jiyo will suggest: Materials for you to read or watch for guidance Yoga postures to try Foods to eat Other relevant practices to help you bring about your best health With this and other similar apps, you can spend less time thinking about your health practices and focus more on living them. There are a lot of promising technological advancements coming your way soon or already available to enhance your yoga practice. Take some time to check them out to see if they support your practice. These developments may not tend toward the traditional ways of a yogic lifestyle. However, technology may soon make these principles accessible to a wider audience. The marriage of modern-day technology with valuable ancient wisdom traditions is a key element in the evolution of humanity. Happy World Yoga Day!!! Read the full article

Blockchain Military Applications: The Future Of Military Defense

The military has traditionally seen many technology adoptions from time to time. From Virtual Reality to Internet of Things there are several technologies which have been adopted even when they were relatively new. The issue of cybersecurity is closely related to military organizations around the world. So secure communication is an example of how military blockchain applications are demonstrating their potential. The ability to transmit secure communications between units is one of the fundamental requirements for any military organization. Today, cybersecurity is widely considered within the armed forces. That’s why decentralized ledgers, smart contracts, and related technologies offer interesting opportunities to solve problems within the military space. Blockchain Military Applications Air Force The integration of AI and blockchain with drone technology gives birth to formidable opportunities in blockchain military applications. Not only these applications can analyze and accurately report on footages in real time, but AI can also yield autonomous drones. Then drones can fly entirely independently without requiring any human intervention and control.  

Blockchain Military Applications - Drone Technology   Blockchain-based applications can record and store data collected by AI-enabled drones in real time. These applications can even record the flight decisions and actions performed by the drone. So, with each drone working as a part of a decentralized network, even if it’s destroyed later, whatever data it has gathered would still be safely recorded and stored on the blockchain. Navy Battleships have weapons of different fire powers, such as missile launchers, torpedo launchers, and anti-aircraft batteries. In the face of enemy fire, all these weapons must work together perfectly. Warships from many countries, including the US, Japan, and Spain rely on the Aegis Combat System. Although used for more than 50 years, Aegis is an important piece of military technology. It uses a complex system of radars and powerful computers to make decisions in fractions of a second. It controls the deployment of weapons, deciding when and in what direction to fire, in response to threats in fractions of a second. But it has one crucial weakness: it’s a centralized system; If you take down Aegis, and you can take down the ship. This is where blockchain will come into play. Additive Manufacturing Additive Manufacturing (AM) is the military term for 3D printing. It is believed that AM has not achieved adoption in all supply chains is due to the absence of a Digital Thread. A digital thread consists of 1. The indefinite ability to store and reference data, 2. The means to identify if a design does not work properly or needs improvement, 3. And the scalability to advance the production process, applying process improvements using data collected at each previous step. The US Navy has already seen the potential that blockchain can bring to AM processes. Since 2017, it has committed to integrating blockchain into every step of an AM operation. The use of a decentralized network in this way meets the requirements of the digital thread. Provides secure and theoretically unlimited data storage. It also allows data sharing throughout the AM process using the network nodes. Adoption The U.S. DoD is also working with companies with expertise in blockchain innovation. In May 2017, Indiana Technology and Manufacturing Companies (ITAMCO) received a Phase 1 grant by the DoD to develop the cybersecurity architecture for a blockchain-based messaging application. Several other nations besides the US are also looking to adopt blockchain technologies in defense programs. For example, news sources have reported that Voentelecom, a telecommunication company that provides communication and integration services to federal executive authorities and the Ministry of Defense in Russia, is considering possible applications for blockchain in the Russian military. China will reportedly also use blockchain for its ability to quickly distribute funds and protect sensitive data. If military research and development ultimately have a direct benefit for defense applications, the general public could also see major benefits, as technological progress made by militaries also benefits other industries. Advancements in cryptography could ultimately benefit the security of the future Web 3.0 by protecting user data on decentralized social media platforms, improving cybersecurity, and allowing for greater security of cryptocurrency payments. Read the full article

Sensors for Defense and Military Applications

The concept of battlefield and military operations has changed significantly over the years due to technological revolutions. There is a wide range of support provided by sensor technologies. It is from simple sensors to AI-based tools for real-time intelligence sharing and decision support. From soldiers on the ground to combat pilots, sensors are making their relevance in various military applications. Sensors have a huge potential and they help further for defense and military applications. Battlefield  battlefield surveillance systems use sensors. You can deploy sensors on land, aerial platforms, in space and underwater. This helps to keep a 24×7 watch over a particular targeted zone. The Remotely Monitorer Battlefield Sensor System (REMBASS) and Improved REMBASS (I-REMBASS) contain passive sensors. The sensors are normally in an idle mode with very low power dissipation. The sensors note a change in the ambient energy level. Sensors are activated if a target comes into detection range. The ambient energy level refers to seismic/acoustic, thermal, and/or magnetic. The sensors identify the target (as a person or a tracked or wheeled vehicle). Then, format this information into short digital messages. And then, transmit the messages to a monitoring device (either the SMS, the PMS or M/P). Monitoring device decodes and display the information which shows target classification and direction of travel. The sensors send a test message on initial power-up to verify operational status. The repeaters send periodic test messages. Operator calculations are based on the sensor data. And they help in the determination of target location, speed, the direction of travel, and the number of targets. Missile system

Sensors for Defense and Military Applications The electronic circuitry including various sensors is a critical part of the missile system. For example, Bloodhound missile was a relatively advanced missile for its era (the Cold War). It is with an advanced continuous-wave semi-active radar homing system, offering excellent performance against electronic countermeasures and fire control. With sensory systems, now the missiles are much more sophisticated, powerful and accurate as compared to traditional ones. Smart camera sensors Viooa Imaging Technology has been producing smart camera sensors for use in various military applications. They were especially for unmanned platforms including air, ground, and sea. Extreme indoor and outdoor harsh environments use this to get one or multiple points of interest from different directions. Wearable sensors Portable and wearables devices are most desirable for soldiers. Hence, there has been a growing trend of wearable technologies for wider military applications. These devices are embedded in clothing and accessories that can comfortably be worn on the body. Wearable technology is not about style or fashion. It is more about the smart use of technologies to assist soldiers and military operations.

Sensors for Defense and Military Applications Wearable devices with small and smart sensors provide better connectivity. They also enable easy and real-time transfer of data, images, audios and videos. They can enhance the sensing capability, artificial intelligence (AI)-based solutions, cognitive abilities and augmented reality (AR). Wearable devices help to track the soldiers during high alert operations. This helps in ensuring the safety of each soldier and the troop. Read the full article

China’s military-Rushing to use Artificial Intelligence

The use of Artificial Intelligence in China's military can be the game changer in the future wars. Recent report says, China is moving quickly to add ever more AI and autonomy to military weapons systems. Intelligence supremacy will be the core of future warfare. In future intelligent wars, AI systems will be just like the brain of the human body. President Xi Jinping Chinese President Xi Jinping believes AI and other cutting-edge technologies applied to military systems. They are the key to keeping up and leveling the playing field between China and countries like the U.S. This had a head start on its industrial development. According to a new report published by a think tank called the Center for a New American Security. Global leadership China's behavior of aggressively developing, utilizing, and exporting increasingly autonomous robotic weapons and surveillance AI technology runs counter to China's stated goals of avoiding an AI arms race. In October, Xi was quoted as saying that China should strive to “achieve world-leading levels” in artificial intelligence tech. While also eliminating its “external dependence for key technologies and advanced equipment,” according to the report. In short, China is positioning itself to take a global leadership role in AI development. And it wants to make sure it can do so without the help of any other nation. All Hands On Deck The think tank’s report goes on to clarify that many Chinese leaders. They are concerned that they may be fostering a sort of arms race between China and the West. Beacause, both push to develop and weaponized autonomous technology like AI. Still, though, the report says that those same leaders believe that AI will inevitably become more prevalent in combat. China is poised to take the lead, according to MIT Technology Review.  It is because Chinese tech corporations work hand-in-hand with the government. But, American companies like Google, Microsoft, and Amazon are subject to worker protests over military contracts. Read the full article

Famous Bomb Defusing Robots

There is no doubt that technology has benefited the human race to a great extent and year by year, it just getting better. And talking about innovations like Bomb Disposal robots, it has always been the need of the hour as numerous armed personnel loose their lives while dealing with explosives. Currently, witnessing so many advancements coming into the defense arena, it feels really good. After all its not only an Army man’s duty to serve the nation. However, over the decades, bomb disposal robots have witnessed tremendous transformations and today’s bomb disposal robots are way more advanced and effective. Here is the compilation list of the world's famous bomb-defusing robots. The Wheelbarrow Bomb disposal was one of the first practical applications for robotics. Peter Miller created the first bomb disposal robot Wheelbarrow . He is a retired Lieutenant-Colonel of the British Army’s Royal Tank Regiment. And it is the oldest tank unit in the world.

Famous Bomb Defusing Robots The brainchild of Peter Miller, Wheelbarrow came into action when the Royal Army Ordnance Corps (RAOC) lost eight Ammunition Technical Officers (ATO) on active duty in Northern Ireland. The robot is equipped with a Pigstick. Pigstick is a device which fires an explosively-propelled jet of water to disrupt the circuitry of a bomb and disable it. Major Robert John Wilson Patterson invented Pigstick. The collaboration of a wheelbarrow and Pigstick took the world by storm. The invention of this bomb defusing robot was one the most vital at that time and saved hundreds of lives. Since inception, wheelbarrow went through many upgrades, the latest upgrade is the Wheelbarrow Revolution which comes with a 360-degree arm that can be load with several other types of equipment. That is not all, Wheelbarrow Revolution can also climb stairs. DRDO Daksh It is by India’s Defence Research and Development Organisation (DRDO). Daksh is a remotely controlled robot for locating, handling, and destroying hazardous objects safely. Daksh is almost similar to wheelbarrow as it also has some of the same features. You can control it over a range of 500m in the line of sight or within buildings

Famous Bomb Defusing Robots This Indian bomb defusing robot primarily focuses on improvised explosive devices (IEDs). Using X-ray vision, Daksh identifies IDEs and pick them up with the gripper arm and disables it with a jet of water. Daksh is also loaded with a shotgun that can be used to take targets down and open locked doors. MarkV-A1 MarkV-A1 or Mark5-A1 is another top-tier bomb-defusing robot. It is the brainchild of the Northrop Grumman. Markv-A1 was primarily created to handle potential hazards and explosives from outside the danger zone.

Famous Bomb Defusing Robots This 790 pounds robot has a speed of 3.5 mph and is equipped with a camera that has a 26x optical zoom and 12x digital zoom. With a grip of about 50 pounds of force, the arm of MarkV-A1 can lift up to a 60-pound weight when fully extended. Also, despite the low speed, this robot can travel up inclines to about 45 degrees and has the ability to ascend and descend staircases. MarkV-A1 also takes down enemies. In 2016, Dallas police used MarkV-A1 to kill a gunman who fatally shot five officers. Harris T7 Another top-class bomb defusing robot is Harris T7. US defense contractor Harris created T7, equipped with high-definition cameras, datalinks, and an adjustable manipulation arm, to mitigate and neutralize explosive threats.

Famous Bomb Defusing Robots Harris T7 has a haptic feedback function that provides operators with human-like dexterity. With an intuitive control interface, the robot ensures that the operator gets a high degree of command and control. The robot also has several other attachments that help in detecting IDEs planted in vehicles or anywhere else. Read the full article