The Importance of Data in the Life of Bees
Have you heard the buzz? Data is everywhere, informing, influencing and affecting the direction and decisions of our lives daily. Due to modern technology, we now have access to a world of knowledge that was otherwise unavailable just 50 years ago. This data is gold, and when we intentionally utilize technology to mine and refine it, we can create a more sustainable world. Industrial internet of things (IIoT) technology makes a sizable and sustainable difference in multiple industries – including apiculture, the business of beekeeping. Much to my surprise, I learned that taking an intentional approach to data collection and distribution profoundly impacts the lives of bees and surrounding societies. Data and beekeeping In 2019, I went on a mission with my company ModuSense to create an IIoT solution that could aid specific industries with several deployed assets in need of environmental monitoring. After exploring applications in forestry and horticulture, our journey led us to apiculture farming and the high value commodity of honey. I believe in fully immersing myself in business and technology, so I became a beekeeper to understand the complexity of the apiculture industry better. Beekeeping is a high-value asset in New Zealand and Australia, almost exclusively because of the manuka honey variant. While traditional clover or bush honey may earn between $4-6 dollars a kilo, manuka honey can earn as high as $200 a kilo, making every drop critically important. Proper hive monitoring is essential for quality production, but beehives (especially the manuka variant) often grow in difficult terrain within remote locations, making them challenging and expensive to access regularly. Without IIoT technology, beekeeping is a naturally complicated process. Oftentimes, beekeepers must utilize helicopters to deploy and check on their hives, which is time-consuming, expensive and challenging. However, with the right IIoT solutions, such as sensors that monitor hive conditions, the beekeeping process is simplified, increasing productivity and overall harvest quality. With access to the right data, beekeepers don’t have to check on the internal conditions of their hive manually; instead, they can manipulate and control the hive’s environment from afar through sensors to create optimal conditions for production.This IIoT technology is helping us augment the beekeeping process through effective data monitoring, which is ultimately creating a simpler and more sustainable approach to hive operations. Simple solutions In many ways, beekeeping is quite similar to dairy farming, meaning better environments create better products. When cows receive access to the best pastures, they inevitably produce better milk which then creates better dairy products for us to consume. The same is true in the life of bees. When bees intentionally receive access to the best environmental conditions and quality nectar, they are able to become high-strength, crop-ready colonies which naturally produce a high-quality harvest. Effective regulation of the bees’ environment is critical to ensure the best yield, and this is where IIoT technology is making a world of difference in the apiculture industry. Bees are incredibly sensitive to barometric pressure, humidity and temperature, all of which play a role in their ability to produce as a colony; bees also need to maintain a central weight to operate at peak performance. As such, the best way to ensure a quality harvest from a beehive is to maintain the colony’s weight and manage the hive’s temperature. With proper data insights, we can do this remotely by studying and monitoring the internal collective health and conditions of the hive. Without lifting the hive’s lid, which disrupts the harvest process, we can virtually control the bees’ environment without the extra cost or time of added deployments. These insights are easy to monitor from a single pane of glass, making critical information accessible faster than a bee can fly (which is pretty fast at 20 mph!). Integrating special IIoT sensors, we developed the HiveBeats Environmental Monitoring Sensor, HiveScale V5 and Brood Monitoring Sensors that now provide precise insights into the life of a bee, which ultimately determine if and when human intervention is needed. This allows for significantly fewer errors to occur and saves time and money along the way. Data connects life – for bees and people At ModuSense, we are proud to develop timely IIoT solutions, including sensor devices, cloud-based data routing, data storage, analysis platforms and connectivity hardware to provide solutions that are easily deployed and ready to fit for purpose. In partnership with FreeWave, we are committed to accelerating hardware and software IIoT development capabilities in meaningful and immediately measurable ways for remote industries around the globe. As the CEO of ModuSense, I am proud of the work we have done to create real-life change in the world of apiculture. Our special sensors enhance the hive cultivation process by extracting critical internal data insights, all while creating a culture of industrial sustainability for beekeepers along the way. We are creating a new way forward by leveraging the power of IIoT technology to monitor data and using that insight to respond with actionable execution. Sustainability is about finding ways to use less to do more and our ModuSense sensors are doing just that for beekeepers around the globe. Today, technological intervention plays a significant role in the efficiency and sustainability of our work. When we remove the guesswork from our labor, we can respond with intention and precision, creating better work environments and industry performance worldwide. I am proud to contribute to this type of change in the life of bees and beyond.
Technology Simplified: Leveraging Data in the New Digital Era
Excited by tomorrow, we face a new world filled with endless possibilities each day. Thanks to modern technology, simple sensors open the doors to our favorite restaurant, edge computing allows manufacturers to spot and correct production glitches before they happen, and high-tech traffic cameras analyze and record thousands of license plates daily to spot stolen and unregistered vehicles while also identifying suspected criminals. It’s no secret that the world is evolving before our eyes, and through the technological advancements of this digital era, we are creating a more efficient world. The power of data Data is a powerful tool of knowledge, and lucky for us, it’s everywhere! Every one of our actions is driven by a manual process of data – like the simple act of putting on a jacket when it gets cold, or an automated process of data – like a valve instinctively shutting off when a water tank gets full. Today we have the technology to effectively process, analyze and distribute data metrics in tremendously impactful ways. What does greater simplification look like for industrial leaders? Remote operations simplified When leveraged effectively, industrial internet of things (IIoT) solutions take remote operations to the next level, simplifying the work process for teams and industries across the globe. Think about some of the most popular high-value remote assets today, like drones, video surveillance, or even center pivot irrigation systems – these entities perform so well because they do what humans can’t. In mere seconds, IIoT technology can process, distribute and respond to data that would otherwise take an entire team hours, days or even weeks to achieve. In the not so distant past, industrial operations relied solely on data consumption (i.e., how much water is in the tank; what temperature is the water), but today, advancements give us the ability to respond nearly instantaneously to that collected data with actionable execution. Today we can view and control the management of an entire operation remotely on our cell phone. We can see how much water is in a tank or what temperature that water is at and automatically change and adjust the water levels and temperatures from near or far. As a result, the amount of time, resources and energy needed to run businesses has transformed entirely, and this evolution allows us to create an enhanced world and standard of work. Simple deployment Remote operations are oftentimes in rugged terrain, making them difficult or even impossible to access. At FreeWave, we solve this complex issue by providing pre-configured ready-to-deploy solutions, complete with everything needed to achieve the mission at hand. For example, through FreeWaves’s joint venture with ModuSense, we’re simplifying connectivity to cloud with a variety of pre-configured and ready to deploy monitoring and sensing solutions by supplying the entire solution with a 12-month data plan, dashboard, 12W rapid recharge solar panel, satellite connectivity and Bluetooth connectivity. You can use your mobile phone to validate the data directly from the gateway without having to wait for satellite transmission. We all know the “gotchas” when it comes to buying technology. Simple deployment means you’re ready from day one, without needing to buy additional components. Real-world impact As Chief Operating Officer and SVP of Global Sales and Marketing at FreeWave, I get a front-row seat to the real-life impact modern-day technology is having on lives, businesses and entire industries. The essentials of life have become simplified, and in the process, more people and businesses receive greater access to the things that matter most like critical information, metrics and potential outcomes. Creating a more sustainable world and preserving natural resources like food, air, energy and water have been at the forefront of IIoT since FreeWave began almost three decades ago when we brought long range, low power consumption, C1D2, 900 MHz connectivity and radio technology products to our customers. Since then, our connectivity options have greatly expanded by adding EDGE Compute, Software, Industry Protocol Conversions, Data Broker & Cloud, a complete end to end solution and with it comes the responsibility for greater environmental stewardship. We’ve all seen the devastating impact an environmental catastrophe, like the 2010 Deepwater Horizon oil spill, can have on the globe. Simple mistakes can and do cause enormous repercussions that affect us all. The truth is, with human interaction there will always be the cost of time and possible room for error. Technology, however, is different, as it allows us to not rely solely on human capacity and depend more on interconnected and advanced systems. Now, we don’t have to wait for someone to run into a situation or crisis and manually pull a lever or travel to turn off a valve. Instead, preprogrammed automation or a simple click of a button or flip of a switch from virtually anywhere in the world can control your high value remote assets. FreeWave is a technological pioneer in the 21st century. We have connected the unconnected with a reliable ecosystem of edge intelligent radios and solutions to optimize the extreme edge of remote industrial operations. Through our single IIoT platform, we provide expanded capabilities for data capture, analysis, control and automation. Our single pane of glass approach provides a simple, single vendor, one-stop-shop solution for remote operations worldwide. At the end of the day, when we take the power of data monitoring and funnel it through modern technology, we open ourselves up to a new world of endless possibilities and opportunities. It’s one thing to have data; it’s an entirely different thing to know how to leverage that data. At FreeWave, we are constantly pushing the boundaries of data monitoring and modern technology through our IIoT solutions and creating a better, safer and faster world of work for industries around the globe.
Data Connects Life: A Deeper Look at the Power of Connection for IoT Champions
Every day, the world shifts in a new digital direction, making our lives simpler and equally more complicated all at the same time. I can vividly remember the introduction of email. I had just started my career in tech, and I kid you not, my coworkers and I questioned the efficiency of this new digital communication system. Back then, taking the time to craft an email, when I could easily make a phone call or walk to the office next door, felt foreign and unproductive, but now, decades later, I can’t imagine my life or work without the power and ease of email communication. If there’s one thing we can count on, it’s change, and when we meet change with adaptability and curiosity, we can create and sustain a more connected world, one where technology invites us to innovate, collaborate and engage with each other and the environments we live in! More technology. More data. The Mckinsey Global Survey has found that our global response to the pandemic has accelerated the rate of technology by several years. What does that mean for real people? Over time, we have discovered a new world filled to the brim with data that both informs and transforms our day-to-day lives. From smartphones to traffic management systems, the Internet of Things (IoT ) is revolutionizing life as we know it, connecting us to more people, places and systems than ever before. Connection is a powerful tool, and when harnessed effectively, it can change the world. The interdependent relationship between our natural and digital world is quite profound; in today’s society, we operate as one. In smart agriculture, for example, effective data can make a significant difference in overall crop and herd health, which, in the end, affects us all. Whether we’re on the farm, on an oil rig in the middle of the ocean or in our own backyards, technology connects us. Data is everywhere, and when this data is measured and distributed carefully, it transforms entire industries. Accessing the data you need on your terms For the last 28 years, FreeWave Technologies has pioneered a unique IoT revolution, reinventing the way industrial IoT is used in the modern market. We connect the unconnected with a reliable ecosystem of edge intelligent radios and solutions to optimize the extreme edge of remote industrial operations. Through our software, we provide IoT champions with real-time data insights to create better and more sustainable businesses. To achieve transformative operational optimization, industrial leaders need visibility into data and the ability to proactively manipulate that data and act on the insights gained from it. Our vision is to build an ecosystem of edge intelligent radios and solutions to transform the extreme edge of industrial operations into a connected part of their enterprise. Our integrated edge connectivity and computing solutions provide expanded capabilities for high-fidelity data capture, analysis, control and automation via a single industrial IoT platform that is readily scaled as each edge computing need evolves. We call it a single pane of glass. With a legacy of solving thousands of customer changes across multiple industries and deployment in 39 countries, the goal is to continue to future-proof operations so that remote work becomes more autonomous and, dare I say, simpler. It all brings us more connected with our collective purpose to create a better and more sustainable world. Data connects life. The more we see, the more we understand, and the more we understand, the more equipped we become to make better decisions. As the Director of Marketing at FreeWave, I am closely connected to the people and operations most impacted by our work. I know firsthand how powerful connection is for the IoT champions we serve, and every day I witness the power of data to transform the world. Putting it in perspective Take the water and wastewater industry, for example; in this industry, clear and controllable data insights are key to achieving effective operational management. At FreeWave, we provide these actionable data insights such as moisture levels and weather predictions through our sensor and weather monitoring technology, which ultimately allow water and wastewater industry leaders to be proactive in their business rather than reactive. A proactive and informed approach to operational management makes the difference in creating a more sustainable environment, and a more sustainable environment transforms our communities and the surrounding world. FreeWave’s productivity technology is removing barriers to data and helping industry leaders solve unique challenges like never before. Where some people may only see tech software – a little box with some wires, chips, and sensors – a much deeper reality occurs. We are all connected, and today, IoT champions get to leverage the power of this connection, along with technology and data, to create a better world, one industry at a time. I am so proud to work for a company that is connecting the world in unique and innovative ways. Every day, I see the impact of technology and what it means to be more connected through data, giving us critical insight. What we do with that data is where the magic happens. This is where we can use connectivity to push boundaries for greater innovation, make best use of our people, create safer work environments by understanding what’s happening in hard-to-reach terrain, and even take bold action to architect a more sustainable world.
Is Your Farm Losing Money from Rural Broadband Issues?
Today, of all things, a strong internet connection is essential for successful farming. So, is your farm losing money from the rural broadband issues you’ve experienced? Only a generation or two ago, it would seem almost nonsensical that farmers might struggle to keep up without internet access. Yet here we are, living in a world where 73 percent of farms say they have a laptop or desktop and more than half own a smartphone, according to a USDA report. With the rapid growth of precision farming, including digital tools and IIoT-enabled sensors that automate and improve the farming process, solid and reliable internet access will only matter more as time goes on. So, is your farm losing money from rural broadband issues or a weak connection? Learn more below. Why is Rural Broadband a Problem? Rural broadband is one of the most popular internet solutions for modern farming operations, but the simple fact is that it doesn’t always do the trick. Broadband is set up through a series of routers, which sometimes leads to spotty reception or inconsistent farm wifi systems. Rural internet is also not always available in some areas where farmers need it, which could slow down harvest production or cause farmers to hesitate when adopting new technologies. What Are the Disadvantages of Broadband? Connection speeds vary depending on location and signal strength. Rural broadband is often more expensive than in urban areas, which cuts into profit margins. Setting up broadband is time-consuming and costly and may require additional solutions. In rural areas with hilly terrain, such as Appalachia, broadband may not be an option at all. Broadband issues may prevent farmers from keeping up with automation trends (costing them money and reputation in the process) Why is Broadband Important for Farmers? Precision agriculture helps farmers use internet access to collect and analyze data, conduct business with vendors, and connect to IIoT-enabled devices, such as sensors or drones. How Do Farmers Get Internet? 27 percent of farmers have a digital subscriber line (DSL) 14 percent use a broadband connection through satellite 12 percent use a cable or telephone line According to Modernfarmer.com, 25 percent of U.S. farms still don’t have internet. What Percentage of Rural Areas Have Internet Access? According to the U.S. Small Business Administration Office of Advocacy, only about 73.6 percent of rural areas have robust and reliable internet access. With so many tools emerging that make farming more efficient and lucrative, this percentage is almost guaranteed to dwindle in the coming decades. Why Is There No High-Speed Internet in Rural Areas? For the most part, it comes down to price and technological limitations. Installing miles of fiber optic cables and 5G towers in remote areas doesn’t always make sense for internet providers, who may not be able to recoup their investment. Additional solutions such as a wireless bridge, which adds up to 60 miles of solid wifi connectivity, may be necessary even if broadband can be installed. This is one reason satellite technologies have become a solid solution for farmers living in rural and remote areas. Satellites used to be too costly to operate for most businesses, but that too is quickly changing. Do Farmers Need Internet? Looking at the tools a farmer’s competition is likely using, you’d be hard-pressed to say anything other than “yes” to this question. Without strong internet for farmers relying on agricultural automation methods, profit margins could drop and result in a loss of market share. Why is Internet Access Important for the Diversification and Rebranding of Rural Areas? In more ways than one, the future of agriculture will rely heavily on a solid internet connection. From automation tools that increase profits and yields to improving the quality of life for agricultural professionals and their families, internet connectivity is just as crucial for business as it is for personal reasons. As the world becomes increasingly global and digitized, it’s easy to forget the vital role farmers play in making our society work. In fact, it will be farmers who create enough healthy food for our rapidly growing population, which is expected to approach 10 billion people by 2050. See how FreeWave’s Fusion Bridge solution can upgrade the internet connection for your operation.
Frustrated With Your Farm’s Bandwidth?
A good Internet signal is essential for smart farming and precision agriculture. A wireless bridge solution may just be the boost for your operations. In the age of smart farming and precision agriculture, a weak Internet signal is something that can no longer be tolerated. Your farm’s sensors and devices rely on solid WiFi connectivity to send and receive data, which is essential for boosting crop yields and healthy food production without expanding resources. If you’re frustrated with your farm’s bandwidth, a wireless bridge solution can extend your network and improve security at your operation. Learn how below. What is a point-to-point wireless bridge? As its name implies, a point-to-point wireless bridge connects two users wirelessly. Two routers, known as endpoints, typically link up through dual-radio Wifi radio or optical laser. Farm WiFi systems are often enabled through a point-to-point wireless bridge in an agricultural setting. This helps extend the range of Internet connectivity and enhances the signal in more remote areas of operation. Since many precision farming tools send and receive harvest cycle data in real-time, consistent and robust connectivity is essential. A wireless bridge can upgrade your network’s current capabilities and protect your data. What does a Wi-Fi bridge do? A wireless bridge is a tool that connects two WiFi networks over one wireless channel. This sort of connection is used in neighboring towns and districts, at manufacturing sites, and on large plots of land in an agricultural setting. What is the difference between bridge mode and wireless bridge? A wireless bridge connects two segments and enables data sharing between the two. Bridge mode is a configuration within your router that turns it into an access point for transferring data. Bridge mode essentially turns your router into a switch. It can help broaden WiFi access on a farm or rural area where connectivity historically has lagged or struggled, just like a wireless bridge. Depending on preexisting hardware and the size of the plot of land being farmed, one solution may be a better fit for you. How far can a wireless bridge reach? Three to five miles is the industry standard for many wireless bridge devices. But more innovative products, such as FreeWave’s Fusion Bridge, can be hooked up to existing networks and reach as far as 60 miles. Large farms, or those with multiple facilities located on the premises, can significantly benefit from this greater range. Plus, more than two networks can be hooked up, meaning home connectivity could also be added if you wanted. How do I set up a wireless bridge? Setting up a wireless bridge involves three steps: obtaining a wireless bridge and a second router, positioning the devices, then connecting them to the network so that everything’s safe and secure. The steps below outline the process: Choose a modern router that has bridge-mode capabilities. (Most will, but be sure to look when shopping.) Similarly, choose a wireless bridge product that fits your needs in terms of strength and distance. Position your bridge so that it’s in range of your current router. Place your new router in a location where you want robust Internet connectivity. Read your product’s guidelines and follow the steps to connect the bridge/router to your existing network*. *Make sure you activate all safety features, such as encryption and firewalls, on all devices to protect your data. Are you frustrated with your farm’s bandwidth? A wireless bridge solution can be beneficial for farms of all sizes. With greater signal strength and better security, you can gather and analyze data about your crops in real-time and never have to worry about delays that could mess up operations (and your bottom line as well). Learn how FreeWave equips farmers with the innovative tools they need to thrive. Contact us today for help with your network solutions.
Smart Farmers Use Data, Do You?
Data has revolutionized the planting, growing, and harvesting of crops on farms worldwide. Here’s why intelligent farmers use data to drive decisions and boost profits. Data, not unlike the introduction of the cotton gin during the Industrial Revolution, is rapidly changing the way farmers make decisions and operate their businesses. It’s not just to save energy or boost profit margins, either. Based on predictions that the population will reach 9.7 billion people by 2050, experts at all levels are looking closely at sustainable ways to increase healthy food production. Tech tools that rely on data are typically the cornerstone of these initiatives. But how do farmers use data exactly? And why is it wise to adopt tech into the harvest cycle? Keep reading to find out. What is data collection in agriculture? Data collection in agriculture is one of the foundational components of smart farming (also called precision agriculture). Relying on technology to gather information throughout the agriculture lifecycle, farmers can narrow the scope of their farming practices and optimize their processes. Examples of data collection in agriculture include: Crop yield data Soil moisture level monitoring Drone or satellite imagery Streamlining and enhancing farming practices Optimal harvest time Why is data critical in agriculture? As the population increases globally, experts look closely at how the agricultural industry can increase healthy food production while remaining sustainable and profitable. Using data to drive decisions and monitor operations helps farmers achieve both goals. How can the IIoT be used in agriculture? IIoT (Industrial Internet of Things) is a term used for the billions of devices worldwide now connected to the Internet. IIoT and automation in agriculture are closely linked to precision agriculture and data collection on farms. Data is typically collected via IIoT-connected sensors and tools that compile, sort, and analyze the information. These devices do more than just offer suggestions, too. Many are autonomous, which frees up farm owners to focus on the big picture of their operation. How are data and analytics transforming agriculture? Here are some ways data is revolutionizing how we plant, grow, and harvest healthy food. Off-Site Crop Production Data From the time seeds are planted to when the optimal time comes to pick a fruit or vegetable, data is changing how—and where—farmers work. Farmers no longer have to be on-site to make critical decisions. Instead, using a computer or even a smartphone, they can execute decisions from home. Healthier Soils Using drones and other imagery technologies, sensors determine soil moisture levels and overall health from the air. This not only improves the quality of the end product but makes farming more sustainable too. Soil erosion is a considerable worry in the eyes of environmentalists, who say monocropping is responsible for soil erosion in America. For example, topsoil levels in Iowa have shrunk by as much as 50 percent in Iowa, one of America’s biggest producers of corn, soybeans, and oats. One solution to this is to regularly rotate plantation sites, which data collection can help identify. Strengthened Supply Chains Food waste at the farm level is an oft-overlooked issue. Many believe waste only happens at the grocery store or once consumers take produce home with them. But one study found that as much as 30 percent of food never leaves the farm and is simply left there to decompose. Increased supplier and shipping costs and blemishes or imperfections on produce are two reasons this happens with alarming regularity. Collecting data helps farmers harvest at the optimal time and identify outlier products early in the growth cycle, making their practices more efficient. Is IIot the future of agriculture? Yes, assuming you don’t already consider IIoT the “present” of agriculture, too. Tech experts believe the IIoT will bring farming practices to the next level, making them streamlined. For example, crop-picking robots that determine ripeness and readiness of produce are becoming a regular thing on farms across America. As price points for these devices decrease, they will likely become ubiquitous. The IIoT plays an integral role in getting crops to the point that they’re ready for robots to harvest them. And as more robots, drones, and sensors are placed on farms worldwide, more data will be available to farmers to make critical decisions that lead to more products using fewer resources. What are the limitations of agriculture data systems? One of the significant limitations of agricultural data systems is a lack of connectivity in remote areas. Collecting data is essential, but if farmers can’t access the information in real-time, the data is less effective and may still lead to delays or costly errors during the growth cycle. Fortunately, FreeWave’s agricultural solutions can solve connectivity issues in the harshest and most remote environments, so farmers never have to worry about accessing their data in real-time. Infuse intelligence into your agricultural operations today with FreeWave. Click here to learn more.
Five Ways to Improve Agricultural Efficiency With IIoT
The IIoT benefits farmers and their products substantially, especially regarding how efficient growth cycles can become. Learn more in this article. It’s estimated today that half of the organizations in the agriculture sector have adopted IIoT capabilities, according to Inmarsat Research. Even those who have yet to buy-in, largely agree that the Industrial Internet of Things (IIoT) is quickly revolutionizing how farmers grow food and people gain access to healthy food on a global scale. Increased efficiency is one of the main benefits causing farmers to switch to tech-enabled smart agriculture. Below, learn why smart agriculture is quickly becoming ubiquitous, as well as five ways these tools can optimize crop yields, increase profits, and simplify the farming process end-to-end. What Is Smart Agriculture in IIoT? Smart agriculture as it pertains to the Industrial Internet of Things (IoT) is the process of fine-tuning and optimizing the product cycle using digital tools. These devices work synchronously to gather data and deliver critical insights that can be carried out by the technology itself or at the farmer’s discretion. What are the Various IIoT Tools for Agriculture? IIoT agricultural tools include, but aren’t limited to: Crop management devices that collect data such as precipitation levels, temperature, and soil quality. Agricultural drones that determine soil health from up above distribute localized pesticides and more. Cattle health monitoring and management devices. Greenhouse automation systems. End-to-end farm management systems. How does IIoT Impact Our Lives Through Agriculture Automation? It provides larger quantities of natural food for a growing population. It lowers farmer production costs, which passes on savings to consumers. It increases product standards, creating healthier food at lower price points. It keeps workers safe and allows them to work efficiently. It enables farmers to grow their business safely and effectively, with far less risk than previous years. How to Use IIoT in Agriculture to Improve Efficiency (5 Ways) Here are five ways the Industrial Internet of Things can be deployed in agriculture to improve efficiency. 1. Monitor Climate Conditions The use of sensors is one of the keys to well-executed precision farming (or precision agriculture), which is the art and science of making accurate decisions based on data. Often, climate sensors are the first piece of IIoT tech implemented in an agriculture setting. These devices monitor climate conditions, soil quality, pesticide output, and other vital levels to help farmers increase yield using fewer resources. 2. Implement Tools that Reduce Production Risk One of the significant advantages of IIoT in farming is the early identification of issues that could otherwise be missed or overlooked due to human error. This lowers production risk and gives farmers a better idea of what their harvest will look like months in advance. Lower production risk gives farmers better control over product distribution, ensuring they acquire buyers early enough in the season and don’t wind up with unsold products. 3. Use IIoT Agriculture Tools that Lower Cost and Reduced Waste IIoT capabilities reduce operational costs for farms of all sizes. More accurate data boost output without increasing staffing—and healthier, more robust crops yield better profit margins, too. According to Inmarsat, lower operating costs have created a more sustainable farming practice for 37 percent of farmers. 4. Use Technology to Elevate Crop Standards With a firm grasp of the production process and more data to conclude from, farmers can use IIoT devices to produce healthier, nutrient-dense food. A higher standard yields better profits, as well as reputation and growth capacity. This is true for the product of fruits, vegetables, and even cattle. Whatever the product, intelligent agricultural tools help farmers identify outliers, address localized issues such as pest infestations, and deliver those signals (or an appropriate intervention) before it’s too late. 5. Use Mobile Devices That Allow for Flexible Work Gone are the days where farmers had to be on-site throughout the entire grow cycle to ensure the health of their products. Thanks to mobile devices that utilize edge solution technologies, farmers can access information remotely from a smartphone or application. Because many devices work autonomously, the number of decisions farmers must make in general has also been drastically reduced with IIoT technology. What are the Challenges of IIoT In Agriculture? As it stands, the significant challenges of IIoT in agriculture relate to robust internet connectivity in rural areas and elevated hardware costs. Fortunately, though, affordable solutions like ours use rugged hardware and even satellites to provide farms with the power they need to stay connected. The growth of IIoT tech in agriculture (and all sectors) is all but inevitable in the coming years, though. So these current challenges may become nonissues faster than many would expect. Visit our site to learn more about FreeWave’s Smart Ag solutions: https://www.freewave.com/industries-applications/precision-agriculture/.
Increasing Healthy Food Access and Improving Yields With Harvest Automation
Increasing Healthy Food Access and Improving Yields With Harvest Automation What is automation in agriculture, and how are farmers using robots and other technologies to streamline food production? Our guide explains it all. From farm to table, technology in agriculture is quickly becoming an essential part of how Americans access healthy food. Experts anticipate explosive population growth in the coming years, and we expect agricultural automation to increase with it. But how exactly are farmers using harvest automation? And how are they using robots and drones to grow crops safely and cost-efficiently? Here’s an introductory guide to the state of automation in farming today: What Is Automation In Agriculture? Automation in agriculture relies on technology to streamline and optimize the process of food production in traditional farming. From drilling to planting to harvesting crops, automated farming technology is becoming more prevalent at all levels of the growing process. In 2017, TechCrunch estimated that $1.7 billion had been invested in automation farming technologies, a considerable increase from just a decade earlier. How Can Farming Be Automated? Automated farming tools aren’t only used for harvesting crops. Here are just a few examples of how technology is utilized throughout a season: Robotics are deployed to seed and weed areas of a farm. Computer sensors help identify problem areas, which reduces large-scale pesticide use in areas that don’t need it. Drones monitor weather conditions, assess soil states, and even render decisions without contacting the farmer. Beyond the farm and into the warehouse, forklifts are being replaced by automated guided vehicles (AGVs), which can load and unload food trucks, transport items across warehouses, and operate in cold storage climates for longer than human workers can. How Has Automation Affected Agriculture? Automation relies on remote sensors and other tools to more efficiently grow, monitor, and harvest crops. Using the Industrial Internet of Things (IIoT), the farmer makes real-time judgment calls unnecessary. Drones and robotic devices can collect data and interact with other computer systems and make critical decisions. For example, tech tools that determine soil moisture levels and seed population are being utilized more frequently. Farmers rely on absolute precision to grow their crops. As automation tools become more adept at maneuvering through agricultural challenges (weather patterns, for example), there’s a strong possibility it will become the go-to way to produce food. Is Automation In Agriculture a Good Thing? There are many advantages to automated farming, many of which are related to the ever-growing population of humans on earth and their need for accessible, healthy foods. The UN expects the world’s population to grow by 2 billion people between now and 2050. With a world population of just under 10 billion, it’s more important than ever to think critically about how the farming industry can adapt to the growing number of hungry mouths to feed. Here are some of the advantages and drawbacks of farming automation. Advantages of Agricultural Robots Lower labor costs (improves yields in less time) Provides more food at affordable costs to consumers A potential solution for growing population concerns Trustworthy technology simplifies the job a farmer has to do Enables farmers to hire less staff, giving them wider profit margins Less human error Drawbacks of Agriculture Robots Initial technology investment costs can be steep Potential trust issues with evolving technologies Maintenance costs High energy requirements The Future of Harvest Automation With a more than 30-year decline in the farming job industry and an apparent need for large-scale food development solutions, it’s pretty clear that harvest automation is here to stay. The recent COVID-19 pandemic has forced many American industries to take a hard look at artificial intelligence devices for food production. Going forward, more precise tools will emerge that make a farmer’s job easier and more profitable. Artificial intelligence will continue to improve, and both consumers and landowners will benefit from the round-the-clock abilities of field technology that no farmhand can match. Check out how our Industrial IoT Edge Platform can transform your operations today.
What Does the Future Hold for IIoT, Automation, and Edge Computing?
From narrowband communications to edge computing, FreeWave continues to solve significant customer challenges with IIoT, automation, and data collection. We are excited about our 2021 product roadmap. We are making a significant leap forward into Edge Computing. This quarter, we will be releasing two new products: FreeWave Edge and FreeWave Fusion Bridge. Before we look at these new solutions and where we are heading,I’d like to take a quick look back FreeWave has worked primarily in the industrial markets for 27 years, most notably with oil and gas, utilities, and water/wastewater. We would occasionally take on side projects with the military helping out their robotics teams with drones and other technologies, but we have traditionally focused on robust, narrowband communications links. And when I say “narrowband,” I mean the very, very small bits of data that go back and forth in SCADA systems or command and control systems in general. When I came aboard four years ago, the idea was to start pivoting FreeWave toward IIoT in the edge. We began developing radio hardware in the narrowband world that would allow us to do edge computing. As a radio company, this was trailblazing stuff, and we weren’t quite aware of what we were getting ourselves into. Now, before diving deeper, I’d like to reflect on last year’s events. A Look Back at 2020 The pandemic caused us to make significant changes. FreeWave started 2020 with many legacy products and product lines, and it became hard to find the components we needed to push those products forward. We recognized that we’d need to do a significant uplift of these legacy products by rebuilding them from the ground up and ensuring that they were backward-compatible with everything else we had out in the marketplace. After all, we were still talking about 900 megahertz products! In July, we acquired a small software company with a robust solution set focused on proprietary protocols. The acquisition allowed us to focus on the edge with a whole other engineering team section, which is fantastic. Because of this acquisition, our edge computers now come native with protocol converters, which means you can translate proprietary languages brought into the cloud into any language you want. In my opinion, our transition from a primarily OEM and widget manufacturer into a full-blown software application company was a massive win. On top of that, we are currently updating a full SCADA suite that’s been well-received. What You Can Expect from FreeWave in the Next 12 Months We are excited about our 2021 product roadmap as we make a significant leap forward into Edge Computing. This quarter, we will be releasing two new products: FreeWave Edge and FreeWave Fusion Bridge. FreeWave Edge is a data platform that lets customers extract real-time information from their sensors and devices. Edge also allows users to customize alerts and data processing and connects to a customer’s preferred cloud or reporting system. Edge helps companies suffering from unreliable data (or no data at all) improve their operations and, ultimately, accelerates business outcomes. Fusion Bridge is a dual-radio WiFi bridge that introduces connectivity and sensor fusion to 900Mhz networks. New FreeWave customers often have trouble accessing on-site data and quickly transmitting the information to the home office. They’ll install on-site routers to get WiFi connectivity, which can be expensive, and the equipment is usually in the open, where it’s vulnerable to theft. Fusion Bridge enables mobile equipment with WiFi to seamlessly connect smart devices with headquarters. The tool eliminates security vulnerabilities specific to an always-on remote AP and protects on-site assets through the quick and straightforward integration of off-the-shelf wireless security equipment. The Roles IIoT and Data Collection Will Play in the Future of Industrial Automation The future roles of IIoT and data collection are significant. There have been many tire-kickers on the manufacturing side, but nothing comes close to what will occur in the next few years with the various applications coming on-board. We’re entering an exciting era. FreeWave is looking at the possibility of developing – and investing in – the different ways people handle data at the edge and how people make decisions using artificial intelligence. I think this is where many companies will focus their energy — on more of the indoor IoT market, or perhaps even with things like your thermostat. All of the stuff you interact with daily. The possibilities will be endless. Critical Advancements in Data Collection and Communication Companies increasingly want to get more real-time information and insights from their data. Folks have been able to collect a limited amount of data for at least 50 years. Still, if they needed more information, they would have to send someone out to collect data in-person and report back with their findings. In an agile and increasingly competitive world, this kind of data collection is unacceptable. People want to quickly identify urgent issues on-site and make the necessary adjustments right then and there. And with today’s technological advancements, we can do just that! For example, an HR team came to us with concerns that their workers might not be wearing helmets while on a project. They needed to ensure OSHA compliance on a remote site. Using artificial intelligence on a Well Pad, we collected and reported data to them in real-time. Why Customers Return to FreeWave for Multiple Projects We offer an exceptional product; that’s why people return to FreeWave again and again. I still hear from people calling about our first product (DGR). It’s over 20 years old and still in-use! Let’s face it; when people find a reliable, durable product that works, they will continue to come back. Our exceptional customer service is another reason customers return. We provide in-house tech support in the Boulder, Colorado, area (where we also manufacture FreeWave products), and we have a 24-hour hotline for folks needing troubleshooting and installation help. Advice to Customers Customers need to question the viability of the companies with which they
A Starters Guide to the IIoT and Automation in Agriculture
Is your farm smart? Speak to a Freewave Smart Ag expert today. What is automation? How can automation help farmers do more with less? Is automation in agriculture a good idea? How is automation transforming the farming industry? Farmer’s exploring technology tend to ask the same questions. Here are a few of them: What is automation? How can automation transform my farming operation? Is automation in agriculture a sound practice? Why do we need smart agriculture? What is smart farming? There’s a new world of technology available to farmers. But with new technologies come new fears and confusion. It’s understandable. Farmers are afraid they’ll be left behind if they don’t embrace new agricultural technologies. They’re also worried about failure, which means many farmers are unwilling to experiment with new technologies out of a fear of losing it all. Unfortunately, their fears have resulted in an industry that’s resistant to change. Still, many farmers have embraced automation. They’ve invested not only their dollars but also their time. We don’t want to sugarcoat the subject; embracing technology isn’t an easy task. Workforce training is a significant barrier to entry for many farmers exploring automation. A farm’s workforce is diverse, often consisting of temporary, part-time, and permanent employees. The transitory nature of a farm’s employees can make technological training challenging. But the process is less expensive and less time-consuming than you might think. Farmer’s are always looking for larger yields from fewer resources, and for most, automation and the Industrial Internet of Things (IIoT) is the answer. IIoT improves agricultural operations with real-time data insights and control to enable more efficient and precise management of crops, resources, and livestock. You might have a cursory – or perhaps in-depth – knowledge of precision agriculture. For the rest of you, first, let’s talk about automation in general. What is automation in agriculture? Farm automation is an aspect of “smart farming.” It’s a technology that improves farm efficiency and automates the livestock or crop production cycle. More companies are developing agriculture-specific technologies to automate these processes with automatic watering, autonomous tractors, robotics, harvesters, and automated seeding machinery. Smart farm technologies are still relatively new, but we’ve seen growing numbers of traditional agriculture companies embrace farm automation. Even small farming operations use automation. Kyler Laird, a farmer in Indiana with a 1,700-acre farm and an engineering degree, developed autonomous machines to complete tasks like harvesting, drilling, and planting crops. He spoke to agriculture.com writer Laurie Bedford in 2017 and explained that “I’m a one-person operation. I need this technology because I really can’t afford to hire anyone. Besides, finding a skilled operator who is willing to work 24 hours a day for three or four days a year is ludicrous. I can’t hire that, but I can make that very inexpensively.” “I’m a one-person operation. I need this technology because I really can’t afford to hire anyone. Besides, finding a skilled operator who is willing to work 24 hours a day for three or four days a year is ludicrous. I can’t hire that, but I can make that very inexpensively.” – Kyler Laird, Farmer Most farmers can’t design and implement smart technologies, but you don’t have to – that’s our job. By using farm automation technology, however, farmers can drastically improve outcomes and spend far less money and time in the long run. What is “smart farming”? Smart farming, sometimes called a “third green revolution,” applies new information and communication technologies in agriculture. The technological farming revolution includes IIoT (Industrial Internet of Things), precision agriculture equipment, actuators and sensors, geo-positioning systems, big data analytics, robotics, unmanned aerial vehicles (drones), and more. You can transform your operations to deliver more sustainable and effective agricultural production through smart farming. Smart farming also benefits the environment through more efficient water use and optimizing inputs and treatments. “Smart farming can make agriculture more profitable for the farmer. Decreasing resource inputs will save the farmer money and labor, and increased reliability of spatially explicit data will reduce risks. Optimal, site-specific weather forecasts, yield projections, and probability maps for diseases and disasters based on a dense network of weather and climate data will allow cultivation of cops in an optimal way.” – 2017, PNAS Here are a few ways IIoT can improve modern agriculture: Smart ag sensors collect data surrounding soil quality, weather, crop growth, and herd health so you can track the state of your business, equipment efficiency, and workforce performance. IIoT gives you more control over internal processes and lowers production risks. You can improve distribution forecasts with better production output visibility. IIoT gives you more production control to reduce waste and improve cost management. When you can monitor crop growth or herd health anomalies in real-time, you can lessen the possibility of yield loss. IIoT process automation increases business efficiency. Smart devices allow you to automate critical production cycle processes like irrigation, pest control, fertilization, and more. Automation can enhance product quality and output. Agriculture automation gives you more control over production processes, helps you maintain higher crop quality standards, and enhances growth capacity. Sample Agricultural Automation and IIoT Use-Cases Grain-Bin Level Monitoring and Control Agriculture automation gives farmers real-time visibility into storage conditions and ensures blowers only operate during off-peak electrical hours, saving as much as 50% in energy costs. Automated Irrigation and Compliance Precision agriculture technologies let you schedule off-peak hour irrigation, allowing you to save as much as $30,000 per year in energy costs. You can automate water consumption reporting processes to ensure regulatory compliance. Herd Health Tracking Smart ag technology helps farmers monitor feed intake to improve livestock health and mitigate feed shrink. Self-Driving and Autonomous Tractors Real-time kinetics from precision agriculture technologies improve guidance and steering accuracy up to 100 times compared to traditional GPS. Intelligent Weed Control The Industrial Internet of Things (IIoT) powers high-accuracy robotic weeders to reduce herbicide consumption by 20%. We want to infuse intelligence into your agriculture operations. Making the most of automation in agriculture means ensuring field