Improved Yields With Less Money and Less Time: the Agtech Revolution
Agtech makes agriculture smarter, and that’s a win for farmers, our planet, and people. Farming and agriculture have always relied on technology and innovation to improve resource allocation and increase yields. For example, handheld tools were the norm until the cotton gin’s introduction in 1793, and chemical fertilizers, grain elevators, and the gas-powered tractor revolutionized farming and agriculture in the 1800s. In the 1990s, farmers started using satellite imagery to plan their work. Today farmers have begun to embrace the IIoT (Industrial Internet of Things) – arguably the most significant agricultural innovation of the last decade. Smart agriculture is now common among farmers, and precision agriculture is becoming the norm, thanks to sensors and automation. Still, there are many miles to go before agtech can more broadly address global food insecurity and combat our climate and sustainability challenges; we will get there. “The key to sustainable agricultural growth is a more efficient use of land, labor, and other inputs through technological progress, social innovation, and new business models. For agriculture and aquaculture to respond to future challenges, innovation will need to improve the efficiency with which inputs are turned into outputs and conserve scarce natural resources and reduce waste.” —The Future of Food and Agriculture: Trends and Challenges, Food and Agriculture Organization of the United Nations Keep reading to learn how agtech helps farmers improve processes and save money, while also meeting the food needs of a growing global population. Precision Farming and Smart Agriculture Many farmers have already adopted high-tech farming technologies and techniques to improve day-to-day efficiency and increase profits. Field sensors allow farmers to gather detailed topographic and resource maps and helps them carefully measure and monitor soil acidity and temperatures. Precision farming and smart agriculture technologies also help farmers predict upcoming weather patterns. Farmers who embrace agtech can monitor equipment, livestock, and crops from mobile devices, and gather real-time produce and livestock feeding data. Technology, like ours, even helps farmers access information to forecast future yield and livestock needs. Sensors and monitoring tools give farmers far-reaching information to drive field management decision-making that enables better resource allocation, increases yields and saves money. For example, real-time data can help farmers identify areas that need more water or fertilizer or find places where crops receive too much water or fertilizer. More agtech use-cases: Automated Irrigation and Compliance Agtech enables farmers to schedule irrigation at off-peak hours and save up to $30,000 per year in energy costs. And with agtech, farmers can automate water consumption reporting processes to ensure regulatory compliance. Grain Bin Level Monitoring and Control Precision farming technologies give farmers real-time visibility into storage conditions and use automation to ensure blowers only operate during off-peak electrical hours, saving up to 50% in overall energy costs. Herd Health Tracking Agtech helps farmers monitor feed intake to deliver accurate rations to improve livestock health and mitigate feed shrink. Self-Driving and Autonomous Tractors Real-time kinetics (RTK) in precision agriculture improves steering and guidance accuracy up to 100x compared to traditional GPS. Smart Weed Control IIoT powers high-accuracy robotic weeders to reduce herbicide consumption by as much as 20%. Using agtech to address food insecurity. By addressing factors like soil health and food waste, agtech can help ensure food is grown as sustainably and efficiently as possible and maximize each bite’s caloric benefit. Agtech revolutionizes virtually every step of the process. And it’s about more than ensuring a bountiful harvest and limiting food waste; it’s also about connecting rural farmers and the world-at-large, uncovering new food distribution channels in remote areas, and introducing alternative cultivation methods in rugged and unforgiving environments. Technology and innovation are a deciding factor in eliminating global hunger. Precision agriculture helps farmers become more efficient, profitable, safer, and environmentally friendly. “Farms and agricultural operations will have to be run very differently, primarily due to advancements in technology such as sensors, devices, machines, and information technology. Future agriculture will use sophisticated technologies such as robots, temperature and moisture sensors, aerial images, and GPS technology. These advanced devices and precision agriculture and robotic systems will allow farms to be more profitable, efficient, safe, and environmentally friendly.” —Agriculture 4.0: The Future of Farming Technology, World Government Summit As agtech adoption expands and farms become more connected, productivity and efficiency will increase in the coming years. We anticipate that millions of agriculture-specific IIoT devices will be in action by the end of 2020. And in the coming decades, the average farm will generate more actionable data than anything imaginable today. Other industries are fearful of technology that replaces humans with sensors and robots, but farmers, always in need of more human power and resources, dream of technologies that increase yields and save money with less time and effort. Is your farm Smart? Find out today – get in touch for complimentary FreeWave Smart farm assessment.
The Intelligent Edge: Navigating the Transformative IIoT Landscape with Renee Garcia (Part 2)
The Intelligent Edge blog series continues with its eighth installment, bringing bring back Product Line Manager, Renee Garcia. In our previous blog, Renee spoke with us regarding the adaptation and transformation within the industry and how she’s experienced it throughout her career. In this installment, our conversation carries on as Renee provides additional insight on the benefits of edge computing versus solely the cloud, the impact of IIoT and FreeWave on the industry and the advice she’d give her younger self. FreeWave: As discussed last time, there’s a lot of digital transformation contributing to the IIoT. How has networking evolved to significantly impact the industry? Renee Garcia: It’s safe to say the cloud isn’t fast enough for crucial IIoT data to be transmitted efficiently. There’s a delay; it inherently has points in which things can break down. The issue with the cloud is its day-to-day latency. It’s always a tradeoff between the balance of power and data frequency. By the time a company gets their crucial data that may, for example, present an anomaly, the alarm to signal it may be delayed due to transmission frequency or system latency. Our model is to bring process awareness to customers as quickly as possible using edge computing instead of solely relying on the cloud. FreeWave: Where specifically does edge computing fit into this? Renee: We believe if you have mission-critical infrastructure, you have to have redundancy. There is always the potential for failure if you use just one method – like the cloud – for transmitting data. That’s why the edge is exciting – it allows access to data in real time, at the local level. The benefit of being able to do analytics locally has a significant impact because you can make changes quickly and prevent dangerous events from occurring. FreeWave: What’s been the most rewarding experience of working in the industry so far? What has been most beneficial to the industry? Renee: I’ve enjoyed talking to customers and listening to their stories about where they’re thinking of applying our technology. I like to think of FreeWave as a technology enabler; it’s enlightening from the perspective of creating a roadmap for their business. Listening to customers talk about what we offer, what we could offer and what they want to achieve can get philosophical at times. For example, I was in a discussion with an OEM looking at bringing edge computing to agriculture. The conversation ventured into population growth and the pressures on the world’s food production system. Will this evolve into something cool for the world? Probably. This is just one example of conversations that are exciting to me. We provide the platform for these conversations to evolve and grow into something real. FreeWave: After working in the industry and knowing what you do now, what advice would you give your younger self? Renee: My career has been more organic than I originally planned; I expected it to be more structured. My advice to my younger self would be to keep your eyes open, look for opportunities, consider new technologies and analyze the impact they’ll have on your life. There’s no need to worry about following a prescribed path. Learn what excites and motivates you and let that guide you to your future. Know that everyone is different; very inherent to personality and individual, remember to look internally. _________________________________ Enjoy learning about what our line of talented experts have to say? Stay tuned for the next Intelligent Edge conversation! In the meantime, catch up on all the blogs in our series here.
International IIoT Perspectives: Precision Agriculture
In the United States, precision agriculture is one of the largest industries by both operational scale and economic impact. The technology utilized is typically on the cutting edge, especially for automation and control. Things like sensors, programmable radios and generally more complex software applications have allowed that industry to evolve, domestically, to a point where land and other resources are used optimally. Internationally, although there have been ‘smart’ or ‘precision’ practices in certain sectors of agriculture, many countries are just now starting to adopt the technology to its fullest extent, including the ability to innovate via start-ups and new practices. India & the Digital Agriculture Revolution According to an article in India Times (image credit), the country is aiming to secure a 20 percent stake in the IoT market share in the next five years through its ‘Digital India’ initiative. While many might look at India and think of the sprawling and diverse urban environments that could offer some potential complications for IoT, it is rural areas seeing the most interesting developments. There has been a noticeable growth in tele-medicine operations, which can allow patients in remote areas to interact with doctors for consultation, eliminating the need to get to a city, or vice versa. Perhaps an even greater area of growth lies in the agricultural realm. According to the article, agriculture employs 50 percent of the country’s population, so the potential for a digital revolution is high. Farmers are just starting to implement sensor technology, automation hardware, and even leading-edge tools like voluntary milking systems the allow cows to be milked on an automated machine according to biological needs. Israel’s Precision Ag Start-Up Community In Israel, where IoT technology is starting to mature, the name of the game is data collection and analytics. Mobile applications, sensor data collection hardware, and advanced analytics software are three areas that Israel is seeing significant market growth, according to Israel21c: Israel stands out in precision-ag subsectors of water management, data science, drones and sensors, says Stephane Itzigsohn, investment associate at OurCrowd. … “Multiple startups are aiming toward the same goal — providing good agricultural data — but approaching it from slightly different angles,” Itzigsohn tells ISRAEL21c. “One might use satellite images or aerial photography; another might use autonomous tractors. Not all will get to that peak in the long journey of farming becoming more efficient.” For example, CropX, an investor-backed advanced adaptive irrigation software solution, can be placed throughout a farming area and synced with a smart phone, allowing the operators to receive real-time data updates on things like soil and weather conditions. CropX is based in both Tel Aviv and San Francisco, indicating that the technology may be poised for wide international adoption in the future. Analytics Drive Italy’s Drought Recovery Italy is perhaps best known for a single agricultural export: wine. However, many would be surprised to find out that it is one of the top corn producers in the European Union, producing more than 7 million tons of corn in 2015, according to an RCR Wireless report. In 2016, the EU’s total corn output dropped noticeably due to year-long droughts affecting production. In Italy, start-up companies collaborated with industrial ag operations develop and deploy widespread soil sensor and water automation technology to help streamline farming practices and create a more efficient system for resource use. The technology allowed farmers to get a comprehensive look at their operations and identify high and low yield areas in order to better utilize the available space. Precision Agriculture and the Industrial IoT The continued maturation of IIoT technology is enabling countries around the globe to better utilize resources like water, energy, and land area to create better agricultural operations. As populations continue to expand, and food production becomes even more important, being able to connect these technologies across the globe could become a key factor in optimizing crop output in critical areas. Imagine the above farm in Italy being able to send its data to data scientists in Germany or the Eastern Europe who could in turn analyze it and provide actionable feedback. Or an industrial farm in Israel managing its yields sending that information in real-time around the country. These possibilities are not far off, and as the networks, hardware and software continue to be adapted, the future of precision ag internationally, will become the present.
Remote Tank Level Monitoring and Automation
Industrial livestock operations have several critical needs in order to function smoothly, but perhaps most important is also the most fundamental: water. On remote sites, tank level monitoring and automation are tools that can essentially make or break the entire operation. In many of these situations, the needs of the site managers are different, so in order to maximize the technology being deployed to drive the automation process, they need to be able to customize the functionality. For operations using radio communication networks, those radios need to provide maximum programmability in order to host third party applications specific to the needs of the site managers. We recently finished a deployment that serves as an excellent case study for remote site tank monitoring deployments and included some interesting uses of radio programmability: The operator of a Rocky Mountain based livestock facility approached FreeWave to assist in remote data visualization of water tanks that are vital to its operations. The pain point was that the tank levels could only be observed visually on premise. After consideration of the terrain (mountainous, remote and big temperature swings), sensors and communications infrastructure, FreeWave engineers recommended ZumLink IPR with the Node-RED programming language for intelligent tank data visualization via browser or mobile device. The facility has minimal to zero staff most of the time. If a fault occurs such as a leak that prevents a tank from filling, the facility operators are unaware until they visually inspect the remote faulty tank, located a half mile from property headquarters. The operators wanted to reduce the number of trips to the tank facility and remotely monitor all tanks via web-based browser or mobile device. For the complete case study, visit this link: https://www.freewave.com/case-studies/remote-tank-monitoring-automation/.
Intelligent Decision Making in Precision Agriculture
Modern businesses are making intelligent business decisions thanks to the Industrial IoT and its push towards increased connectivity. In precision agriculture, new technology has the potential to be a game changer for crop management, enabling more visibility over crops and intelligent decision making that directly impacts food output. However, according to a recent article from CropLife magazine, while farmers are leveraging automation, the precision agriculture industry as a whole is relatively new in comparison to the traditional agriculture industry, and so is the adoption of IT technology. The exciting news is that farmers are increasingly turning towards automation to streamline operations. As automation and connectivity are adopted for precision agriculture, there is an emerging market for drones that is ripe with possibility. A recent article focusing on drones in agriculture reports, “With precision agriculture, farmers can now rest assured that they are making crucial decisions correctly and intelligently – made easy through drone analytics.” Drone manufacturers are actively working to make technology that they believe will change the game for precision agriculture. They aim to improve food production and more efficiently distribute pesticides and water. Drones may also aid in disease management for the diseases that rapidly spread through crops. With the use of cameras, drones are also able to offer farmers real-time visibility into the health of their crops. With the rise of drones in the commercial and industrial sectors we see a lot of opportunity for drone manufacturers, technology providers and farmers alike. What we also see as a key to success in all these areas is technology that performs with consistency and reliability. In the case of drones, without secure and reliable command and control (C2) links, drone performance will suffer, and as a result so will the important data that farmers will find essential to making intelligent decisions. Command and Control Links There are technologies available that have proven to unfailingly support critical drone operations. In fact, after decades of serving mission-critical applications in government and defense, the same C2 capabilities of advanced wireless data communications have begun to migrate into the commercial and industrial drone markets. Today, there are a number of secure wireless data communications solutions available that enable reliable C2 links and have been trusted by the government and defense industry for years. Additionally, there are solution providers that offer multiple frequencies for C2 links offering unmanned systems manufacturers a portfolio of options to deploy. In addition to frequency options, when the appropriate security measures and encryption capabilities are in place, C2 links can be better protected to thwart malicious attacks on unmanned systems. For the precision agriculture industry this means less downtime and reliable drones for operations that are critical to the health of the crop. Drones and other modern IT technologies are disrupting the precision agriculture industry, but there is substantial potential for a big impact on the farming industry as a whole. As drones are developed to carry out these applications in precision agriculture is especially important to ensure they are being created with the C2 links that will support modern connectivity needs.
IIoT News Headlines: Trains, Agriculture, Underwater and More
Industries around the world are being transformed by the Industrial IoT. We recently shared a blog with a report that estimates IIoT will experience explosive growth and approach one trillion dollars by 2025. From trains and under water applications, to agriculture, we are already seeing IIoT expand its reach today. However, we continue to see security as one of the biggest challenges – which continues to top news headlines. Below are some of the recent IIoT stories that have caught our attention: How Siemens Is Using Big Data And IoT To Build The Internet Of Trains By: @BernardMarr | Published on: @Forbes “Siemens AG is one of the world’s largest providers of railway infrastructure, serving rail operators in over 60 countries. Through harnessing Big Data, sensors and predictive analytics they say they can now guarantee their customers close to 100% reliabilit It calls this the “Internet of Trains” – the on-rails segment of the wider ‘Internet of Things’ concept which describes how everyday objects of all shapes and sizes can now be connected together online and given the ability to communicate and capture data for analytic purposes.” Agriculture Is The No. 1 Opportunity For African Internet Of Things, Security The No. 1 Challenge By Tom Jackson | Published on: @AFKInsider “Agriculture, Africa’s largest economic sector, is likely to be central to the growth of IoT. There are many examples around the world where value can be unlocked from enhanced efficiencies along the value chain. Mining, oil and gas, telecommunications and manufacturing will have to adopt IoT to improve efficiencies.” The Internet of Underwater Things Published on: @NauticExpo_eMag “The development of an Internet of Underwater Things (IoUT), transmitting data throughout the ocean could make possible a system of roaming, autonomous vehicles and underwater sensors, all communicating with each other and relaying information to networks above the surface. This could be used for a wide range of submarine tasks, from pipeline repair and shipwreck surveys to seismic detection and ecological monitoring.” IIoT and The Cyberthreat: The Perfect Storm of Risk By: @ChrisGrove_Geek | Published on: @MBTwebsite “Many of these newfound risks did not previously exist, mostly due to the lack of interconnectivity and the network ‘air-gap’ — which has become a thing of the past. As industrial organizations race to keep up with advances in manufacturing technologies, IT is increasingly encroaching into the OT world. It’s no longer uncommon to find IT technologies like Ethernet, Wi-Fi, the Cloud and cybersecurity products like virus scanners, firewalls, Intrusion Detection/Prevention Systems and Security Information/Event Management (SIEM) products being managed outside the purview of IT.” It will be interesting to see how the IIoT continues to transform industries. What are some of the interesting use cases you are seeing as the IIoT growes? What are your biggest security concerns when it comes to IIoT?
Precision Agriculture Benefits from Rise of Next-Gen OEM Technology
Precision agriculture has long been one of the leading industries for deploying cutting-edge OEM technology. Autonomous vehicles, sensor systems and data-driven analytics are all examples of technology that the precision ag industry embraced well ahead of widespread adoption. Today, precision agriculture is responsible for a sizable portion of our national economy, and the accompanying technology appears poised to push management practices even further into the realm of the Industrial IoT. This week, we’re highlighting two tech trends driven by the growth of next-gen OEM technology and looking at the effect those technologies are having on the industry as a whole. Agriculture Drones Perhaps one of the most immediately obvious areas of development is the commercial drone industry – specifically, as it applies to its application in precision agriculture. Research and Markets announced last week that it expects the agriculture drone market to reach $3.7 billion by 2024 – a scant seven years down the road. The report cites innovations in GPS mapping, OEM systems that incorporate advanced analytics, and an increase in the automation of the agriculture process as driving factors in the expected market boom. On a Commercial Drones FM podcast, Thomas Haun, VP of strategy and globalization for PrecisionHawk, discussed the accelerated convergence of commercial drone hardware and software. He looks at drones as having the unprecedented ability to redefine and change the foundational verticals due to the innovative applications that are being enabled by advanced hardware and software. Even though precision agriculture has never been shy about leading-edge technology, drones may just upend the industry even more than most analyst originally predicted. OEM and IoT via Satellite Northern Sky Research recently looked at how OEM is intersecting with IoT powered by GPS and satellite technology. The report notes that most new installs of M2M and IoT technologies will be powered by precision GPS: This is a more data-intensive type of data gathering for Agriculture applications, where data points such as machine performance, moisture levels, pesticide levels and other characteristics are all harvested and optimized on a higher resolution coordinate system in the field, essentially, a real ‘smart farm.’ The deployment of precision GPS technology is a notable departure from the traditional meter-reading applications that have driven agriculture technology in the past. These new ‘real smart farms’ will have the ability to collect that data run real-time decision making powered by data analytics. The report also highlights the expected boom in partnerships with agricultural equipment manufacturers, driven mostly by the growth in the “number of OEM installs in farming equipment such as forklifts, tractors and dozers …” The result looks something like a smart network with proprietary third-party applications responsible for delivering automated, data-informed decision making in real time. Intelligence at the Farm’s Edge If the two trends mentioned above come to fruition, the precision agriculture industry will see a successful transition from ‘big’ data to ‘smart’ data. If programmable OEM technology can be integrated into new and existing farm systems, the industry will see intelligence and analytics being deployed closer to the edge – the point of data collection – than ever before. Drones are becoming critical tools of for data collection and asset monitoring, and as GPS precision continues the improve, the farming industry is poised to reap the benefits of increased data-driven intelligence.
Industrial IoT Weekly Highlights
It’s time for another edition of Industrial IoT (IIoT) weekly highlights! Robots seem to be taking over this round of updates – by air, land and sea. Don’t fret, we haven’t stepped into a Sci-Fi movie just yet. Aside from machines, we gathered the latest information about fog computing, and why this trending concept is needed in the enterprise. The possibilities for machine innovation spurs thinking that we are just scratching the surface of digital transformation. What will people think of next? Sit back, relax and get ready to enjoy another round of weekly IIoT highlights! Weekly Highlights Breakdown What Is Fog Computing? And Why It Matters In Our Big Data And IoT World By @BernardMarr | Published on @Forbes “Fog computing, also sometimes called edge computing, solves the problem by keeping data closer “to the ground,” so to speak, in local computers and devices, rather than routing everything through a central data center in the cloud.” Farm 2026: The Robots Are Coming By @hiyamckidd | Published on @FGInsight “Lettuce thinning is still done manually at lower cost, but robots are likely to reach break even with human labour within 12 years.” Digital Technology to Transform Oil, Gas Hiring Practices By @KarenBoman | Published on @Rigzone “When oil and gas companies start hiring again, they will need to prepare for a workforce of college graduates who want to work off a cell phone or tablet.” Manufacturers Struggle to Woo Software Developers By @AndrewTangel | Published on @WSJ “Nearly every industry is looking to hire software engineers and developers. But the manufacturing sector is having particular trouble attracting potential recruits.” The 10 Coolest Drones at the Worlds Biggest Robot War Games By @David_Hambling | Published on @PopMech “Unmanned Warrior is the world’s biggest robot war game, currently taking place for two weeks off the coast of Scotland. It was proposed by First Sea Lord Admiral George Zambellas to give airborne, surface, and underwater drones from various suppliers a chance to show off their prowess. Unmanned Warrior is part of Joint Warrior, an exercise involving 30 warships and submarines from 18 nations. But for the newly inaugurated robot portion, the U.S. is a strong presence, with teams from the Office of Naval Research (ONR).” As we conclude our Industrial IoT weekly highlights, we hope you were entertained and enlightened. Technology continues to change at a fast pace, let’s find common ground with our robotic pals. Tune in next time for more IoT innovation!
Smart Golf Courses = A Hole in One!
Smart golf courses are coming to a green near you. A modern day golf course requires many things, including real-time monitoring for irrigation and pump systems, automated vehicle location capabilities for carts and players, and the ability to provide employees with the internet connectivity necessary to manage the sprawls of the course itself. As a result, golf course managers are turning toward some of the cutting edge Internet of Things solutions on the market to meet that demand. As far as preferred pastimes go, golf ranks relatively highly for young and old alike. In fact, according to the National Golf Foundation, there are more than 15,000 18-hole golf courses throughout the United States. The American Society of Golf Course Architects estimates that a full-size golf course would need up to 200 acres of usable land, which means that courses in the U.S. take up at least three million acres. By comparison, that’s nearly three times the size of the Grand Canyon National Park. With that in mind, the management of golf courses is a minor feat in advanced agricultural practices and logistics. Smart Golf Course Solution For one Colorado course, the smart golf course solution to its connectivity conundrum lay in the deployment of an industrial-scale Wi-Fi network capable of handling communication, accessibility and maintenance needs. Course managers selected a dual-band, mesh networking platform that provides Wi-Fi coverage in the necessary areas, and with the help of the provider, set up a network that strategically positioned the platforms so that devices and sensors could remain connected via the mesh networking capabilities as they moved from place to place. However, any outdoor Wi-Fi network does come along with its challenges. For example, another factor that golf courses need to consider when determining the best networking option is the weather. Although most courses are situated in areas that don’t typically draw extremely cold temperatures, many are consistently faced with hot or humid climates that can knock networks offline as the communication platforms succumb to the elements. The last thing any course manager wants is to have their communication network fail, especially if that impacts their customer experience. Adopting ruggedized outdoor networking and communications solutions means being confident that the platforms are designed to function without failure – even in areas with extreme weather events or consistently hot temperatures. Additionally, to ensure that the data being collected from irrigation and pump systems is being delivered in real-time allows grounds teams to monitor and predict when the systems are in need of maintenance, or when certain areas of the course are in greater need of water than others, for instance. Today, grounds crews can track this data via handheld devices that can quickly aggregate and analyze data, rather than spend time manually checking each individual service point. Although modern golf courses often look pristine to players and observers alike, upkeep and ongoing service requires constant attention. As these courses begin to deploy more advanced networking systems to become smart in its communication and monitoring practices, the ability for courses to streamline workflow and maintenance needs will only continue to grow.
Drone World: Applying IIoT Applications
“Drone World” may seem a bit overboard, but the fact is, drones are here to stay. We’ve spent time in these pages looking at unique and innovative drone applications in industries like utilities, precision agriculture, and even lifeguarding. Today, in honor of Memorial Day, we would like to take a moment and honor those men and women serving in the armed forces, by highlighting interesting government drone technology uses. Drones ‘Shot Into The Sky’ By The U.S. Navy The BBC News informs us how these innovative instant flight drones could be used as a method of defense for ships at sea suddenly burdened by a swarm of enemy drones. This project is known as LOCUST and it aims to launch a swarm of drones at high speed. Elizabeth Quintana from the military think tank Rusi believes that, “Drones could be used to take out enemy swarms at sea.” Drones That Can Sniff Out Radiation The Nevada National Security Site (NNSS) officials have recently purchased two drones to be a view from the sky in case of an emergency to sniff out and detect signs of radiation. It will be important to use these unmanned aerial systems (UAS) in situations that are to dangerous for humans. Other Applications of Drones Drones aren’t just for the government anymore, in fact we are already starting to see the industries below finding ways to improve safety, service and efficiency with the implementation of drones. Emergency Response Enables immediate action, providing emergency response teams with fast, flexible visibility to assess critical situations. Utilities Safely allows for the quick inspection of high voltage power lines and wind turbines, helping mitigate worker risk and improve monitoring. Military & Defense Assisting with intelligent surveillance and reconnaissance missions to deliver timely, relevant, and assured information to thwart potential threats. Oil & Gas Protects and helps maintain extensive miles of pipeline covering large, remote areas that would otherwise require enormous amounts of time and resources. Agriculture Creates more efficient farms by monitoring inventory, growth, water and fertilizer levels, and crop health to facilitate production and increase yields. Public Safety Supporting firefighting operations by providing more up-to-date information at a lower cost, while reducing the number of responders in harm’s way. We hope you have enjoyed our quick drone world recap, and as always tell us what we missed. The next time you see a drone flying in the sky, think about all the possibilities that drone or fleet of drones could be providing.