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3 Game-Changing IoT Applications in Sports

IoT applications in sports

BehrTech Blog

3 Game-Changing IoT Applications in Sports

The developments and successes of IoT are already widely touted throughout industrial and commercial environments as well as smart cities. However, the presence of IoT applications in sports has also led to the creation of innovative technologies that could revolutionize the entire industry. From shaping game strategy and analyzing potential injuries to creating personalized fan experiences, the sports industry is drastically changing for coaches, players and fans alike.

Here are 3 game changing IoT applications in sports.

Athlete Performance

Sports technology giants are installing IoT-powered sensors in footwear, apparel and equipment to help ensure both athlete health and safety as well as enhanced training and player development.

Smart Apparel

Smart apparel is ushering in the next frontier of performance training. With connected coaching, sensor-laden clothes use real-time data to correct biomechanics, boost fitness, optimize training and recovery and even correct player form, technique and timing.

For example, Athos, a Redwood City based startup, serves elite athletes and military with connected apparel sporting electromyography (EMG) sensors to capture muscle behavior. Data is delivered in real time via Bluetooth to a smart device to help athletes and coaches cue muscle activations, evaluate movement progression and monitor the accumulation of stress on muscles throughout training.

Smart Footwear

Equipped with gyroscope, accelerometer and pressure sensors, smart shoes can analyze running style, measure strain, impact and balance and make suggestions that support training goals. This in-depth data not only helps optimize performance, but also prevent injury.

For example, Seoul startup 3L Labs, has developed a fitness tracking device that aims to detect health problems early on. The smart shoes, called FootLogger, make use of the biometric data gathered from the athlete to send suggestions on how to improve gait, diagnose potential diseases, and improve athletic performance. It has eight sensors paired with one accelerometer to aid in recording the athlete’s exercise habits. The smart shoes can also help with patient rehabilitation, particularly for spinal or nervous system concerns, and can be used to spot early symptoms of arthritis and dementia as well.

Smart Equipment

The global smart sports equipment market size is expected to be valued at $12.0 billion by 2026. Whether it’s a basketball, baseball bat, golf club or helmet, sports equipment enabled with wireless IoT sensors are helping athletes and coaches to monitor, track, analyze, and improve performance as well as provide enhanced health and safety. 

For example, Babolat’s smart racket is equipped with a piezoelectric sensor affixed to the handle to measure changes in pressure, acceleration, strain, or force by converting them to an electrical charge. Armed with this hardware and Babolat’s algorithms, the racket keeps track of how many forehands, backhands, serves, and overheads the player hits as well as the amount of racket head speed being generated. The motion of the racket is analyzed to tell whether the player is hitting slice, topspin, or flat strokes. The racket also uses vibration feedback to indicate where on the string bed the player has made contact with the ball.

Facility Management

Another critical IoT application in sports is facility and venue management. One of the biggest day-to-day responsibilities for sports facilities and venues involves keeping spaces clean, comfortable, safe, and attractive. There are numerous IoT technologies that can help streamline these tasks as well as reduce associated costs.

For example, people counting data combined with presence detection data can pinpoint areas that are frequently used and those that are not like washrooms, concession stand lineups, entrances and exits and of course seats to better manage disinfection and cleaning schedules. With the help of wireless IoT sensors, facility managers can also proactively monitor when consumable supplies like hand sanitizer, paper towels, toilet paper and hand soap are running low at entrances and in washrooms for effective inventory management and timely replenishment. Likewise, stadiums can use IoT-based smart bin technology to enhance waste management, sending real-time data to facility managers on the garbage levels of bins for timely removal.

Paramount in fan comfort as well as operational expenses and sustainability, energy management can now be easily optimized with the help of environmental sensors that monitor temperature, lighting and refrigeration. This critical environmental data can identify the key energy consumption drivers and provide a 360° view of energy consumption patterns, abnormal energy consumptions by faulty devices if any, and under-used or over-used infrastructure and wasted resources. Likewise, air quality sensors can be used to ensure proper ventilation in crowded stadiums.

Fan Experiences

With an $8 billion market size, sports organizations are now realizing that improving their fan experience with innovative technologies has become a necessity for their growth and existence while competing with digital entertainment systems that are keeping the younger generations at home.

State-of-the-art smart stadiums are being built to drastically improve fan experiences and increase game attendance. Wireless sensors provide fans with a wealth of information from parking availability, bathroom and concession lines, seat upgrades, special offers and more. Fans receive personalized experiences through digital displays or downloadable apps with directions to quicky find available parking spaces, shorter concession lines, their seats, the nearest/least-busy exit and the closest washroom.

In addition to smart navigation, stadiums are also increasing comfort and fan engagement with the use of in-seat smart devices and augmented reality. For example, smart tablets are available at seats to order food, merchandise, share insights about the game and even create automated photos and videos of fans during the key moments of the game. Even more impressively, AR technology like GlassUp’s Smart AR glasses help fans see the live and historical stats of any player you focus your glasses on during the game.

Wrapping Up

Today’s wireless IoT applications in sports have the potential to enhance the stadium experience by making it more personalized, convenient, and engaging as well as help improve critical aspects of business operations. In order to capitalize on all of the benefits, sports organizations should consider these guiding principles in order to maximize the power and benefits of IoT: harnessing the power of data, thinking in an agile manner, and looking at the entire fan experience from end-to-end.

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Smart Museums: 6 Artful IoT Applications for Museums and Galleries

Smart Museums

BehrTech Blog

Smart Museums: 6 Artful IoT Applications for Museums and Galleries

While we often think of the Internet of Things has having a heavy presence in commercial and industrial environments, it also has reached widespread adoption in various public institutions like museums and art galleries. According to the American Alliance of Museums, museums contributed 50 billion dollars to the US economy and generated approximately 850 million visitors in 2019. The significant public interest in maintaining these historic and cultural centers and the increasing demand for creating new and innovative experiences has pushed museum facility managers and curators to adopt various IoT applications. Thanks to the availability and broad spectrum of wireless IoT sensors, these organizations are able to ensure the safety and proper preservation of artworks as well as create more dynamic visitor experiences.

Here are 6 ways smart museums and galleries are using IoT.

1. Artifact Preservation

Historical artifacts are extremely sensitive to even minor fluctuations in humidity, temperature and light. Prolonged exposure to moisture, high temperatures as well as sunlight and fluorescent light can lead to a variety of problems, such as shrinking, warping, decay, fading and discoloration. Prior to the availability of IoT sensors, monitoring ambient conditions was a manual and laborious task. Museum administrators had no clear recourse for improving control systems and making timely adjustments, putting these priceless artifacts at risk for damage.

By integrating IoT sensors into storage and display architectures, museums are now able to collect and analyze critical environmental data such as temperature, humidity and lighting in real time. This data enables staff to adjust the humidity, temperature and lighting of exhibits with precision, helping to cut operation costs, reduce the frequency of restoration projects and protect valuable artifacts.

2. Leak Detection

Whether it is a leaking air conditioner, condensation, groundwater or local plumbing, water damage can have a devastating and costly impact on museums and galleries.

Leak detection solutions notify facility managers at the very first sign of a leak allowing them to take remedial action. For example, water leak sensing cables can be placed on pipes in walls near display areas, or around the perimeter of an especially sensitive area. Spot leak sensors can be used in the top of drop-in ceiling tiles to provide early warning of water leaks coming from pipes, upper floors, or the roof to ensure quick intervention and avoid flooding throughout the gallery or exhibit.

3. Artifact Management and Security

More than 50,000 pieces of artwork are stolen each year around the world and the black market for stolen art is valued at between $6 billion and $8 billion annually. Given many of these pieces are valued at millions of dollars, some even priceless, museum security is of utmost importance. IoT offers multiple ways to help with museum security.

Access Control

In smart museums, IoT sensors attached to windows, doors and artifact display cases can immediately alert museum security upon opening and closing to detect and prevent intrusive incidents. Movement and vibration sensors can also be placed in and around works of art that send an alert, silent or otherwise if they’re touched, signalling to museum employees that there may be a theft in progress. 

Individual Article Tracking 

IoT sensors enabled with near-field communication and Bluetooth Low Energy beacons can track pieces of art wherever they go and provide critical data on their condition. Tied to larger museum networks, this offers the possibility of real-time status monitoring and change detection to help prevent theft.

Occupancy Sensing

Presence detection sensors can help museum guards secure a building after closing, sending real-time irregular movement alerts directly to the main security center for immediate action.

4. Interactive Exhibits

There are more than 35,000 museums in the U.S., so to ensure high attendance numbers, an increase in memberships and more revenue, artists and exhibitors must bring something unique to the table. With the help of IoT devices, artists, museums, and galleries are finding new ways to make their exhibits more interactive from collecting virtual objects, to helping visitors plan out personalized exhibit routes with interactive maps and even enabling artists to create unique installations and experiences.  

For example, new media artist Matt Roberts, uses technology to create a sound experience within the museum space by sampling oceanic currents to provide data that modulates the sounds. The data is transmitted to his exhibit from nearby buoys using IoT-linked weather monitors.

IoT has also been used to create interactive exhibits and events through wearable technologies. For example, the Children’s Museum of Houston launched a spy-themed scavenger hunt. The scavenger hunt uses passive low-frequency RFID technology linked to players’ wristbands, which is able to track participants’ progress, location and repeat visits.

5. Visitor Behaviour

From the standpoint of visitors, the attractiveness of the exhibition depends on two characteristics: uniqueness of exhibits and popularity of artists. Presence detection sensors can help curators better understand which areas of the gallery receive the most viewers and which artworks attract the most of attention. These sensors provide real-time data around dwell times within the different rooms as well as specific artworks, providing insight into the interest level of the curated exhibit. Likewise, wireless IoT sensors that measure visitor respiration rate and resting heart rate from a distance, can indicate a physical response to certain artworks. Do visitors’ heartbeat increase when looking at this installation? This information can be used to fuel novel, adaptive and engaging museum experiences.

6. Guest Comfort

As with any business attracting and hosting visitors, ensuring the health, safety and comfort of guests is paramount. Using IoT sensors for Indoor Environmental Quality monitoring is key to ensuring these spaces have clean air to breathe and the ambient temperature, light and noise quality is optimal for visitor comfort.

Likewise, with the help of wireless IoT sensors, museum staff can proactively monitor when consumable supplies such as hand sanitizer, hand soap, paper towel and toilet paper are running low to ensure timely replenishment.

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Smart Retail: 8 Innovative Examples of IoT in Retail

Smart Retail

BehrTech Blog

Smart Retail: 8 Innovative Examples of IoT in Retail

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The retail landscape has experienced a seismic shift with the evolution of IoT. With 70% of retailers confident that IoT will significantly impact how they do business in the future, it’s no surprise that the IoT in retail market size is expected to reach USD 182.04 billion by 2028.

Consumer habits, high pressure on delivery services, buyers’ mistrust in online purchases or lack of tech fluency are all factors that hold sellers back in an environment they could otherwise be thriving in. From revenue growth, cost reductions and business process optimizations, smart retail promises to overcome these challenges to deliver retailers and their customers with unprecedented benefits.

Here are 8 innovative use cases of IoT in retail.

1. Facility Management        

One of the biggest day-to-day responsibilities for retailers involves keeping the store area clean, comfortable, safe, and attractive. There are numerous IoT technologies that can help streamline these tasks as well as reduce associated costs.

For example, people counting data combined with presence detection data can pinpoint areas that are frequently used and those that are not like instore washrooms and change rooms to better manage disinfection and cleaning schedules. With the help of wireless IoT sensors, facility managers can also proactively monitor when consumable supplies are running low at entrances and throughout the store for effective inventory management and timely replenishment.

Paramount in customer comfort as well as operational expenses and sustainability, energy management can now be easily optimized with the help of environmental sensors that monitor temperature, lighting, ventilation and refrigeration. This critical environmental data can identify the key energy consumption drivers and provide a 360° view of energy consumption patterns, abnormal energy consumptions by faulty devices if any, and under-used or over-used infrastructure and wasted resources.

2. Traffic Control

 Since the COVID-19 pandemic, retailers are required to enforce new restrictions on the number of visitors in their space to ensure compliance with government social distancing regulations. People counting systems can help track the number of people entering or exiting any given space in real-time and alert facility managers when their capacity threshold has been met.

3. Buyer Behavior Tracking

Occupancy sensors can provide essential data about store traffic patterns and dwell times in specific product areas. This data can help retailers better plan in-store merchandising and guided selling through more effective display setups, aisle layouts and space allotment. This data can also be used to monitor checkout line wait times to provide better customer service with more staffing or additional self-checkouts.

4. Supply Chain & Logistics

IoT provides unprecedented inventory visibility across shelves, transit and warehouses to help retailers enhance efficiencies, reduce costs and ensure superior customer experience. Connected sensors can track items from “floor to store.” There are a variety of IoT sensors that can provide a coherent stream of real-time data on the exact location of an item, how long it took to move between different phases of the SCM lifecycle and even how fast a specific delivery truck is moving. This helps identify bottle necks, allow for contingency planning and determine alternative routes to speed up delivery. It also helps suppliers, manufacturers and distribution centers better prepare to receive goods, which reduces handling times, ensures the efficient processing of material and increases the precision of delivery forecasts for vendors and customers.

5. Cold Chain Monitoring

Perishable food spoilage and deterioration in the retail grocery industry results in a significant loss of profitability, with grocers on average losing $70 million annually to spoilage alone. Environmental sensors can track ambient conditions like temperature, humidity, air quality, light intensity and other environmental factors inside a storage facility, cargo container, delivery vehicle or in-store to protect perishable goods, ensure optimal freshness and reduce waste.

6. Asset Tracking

Beyond the supply chain, wireless IoT sensors can be used to track on-site assets like shopping carts and baskets. From costly theft to time-consuming retrieval, shopping carts can be an expensive headache for retailers. In fact, shopping carts cost stores anywhere from $75 to $250 each which makes ensuring they stay put in and in good shape critical. IoT sensors can help pinpoint the location of wandering carts as well as activate automatic locking systems on the wheels when a cart has gone too far. This not only prevents theft, but also ensures there are always enough carts for customers entering the store.

7. Personalized Shopping

IoT devices are also being used to personalize shopping experiences. For example, Bluetooth Beacons can send alerts in real-time to a smartphone based on a customer’s location proximity. Such alerts can prompt a potential passerby to go into a store and take advantage of the offer and let in-store customers know of personalized discounts, special events, or other reminders. This location data can also be used to prompt customized messages on nearby digital displays or to dispatch sales associates to areas where customers are lingering, improving the overall customer experience.

8. Smart Shelves

Another innovative examples of IoT in retail are smart shelves. Retailers spend a lot of time and energy focused on keeping track of items to ensure they’re never out-of-stock, and ensuring items aren’t misplaced on various shelves. Smart Shelves automate both of these tasks, while simultaneously detecting potential theft. Smart shelves fitted with weight sensors and RFID tags can scan products on both display and stock shelves to inform employees when items are running low or when items are incorrectly placed on a shelf. This not only saves time, but also eliminates manual errors that cause overstocking and shortages.

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7 Cutting-Edge Use Cases of IoT in Hospitality

IoT in Hospitality

BehrTech Blog

7 Cutting-Edge Use Cases of IoT in Hospitality

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7 Cutting-Edge Use Cases of IoT in Hospitality

The success of the hospitality industry has always been entirely dependent on customer service. Whether an individual is traveling for business or pleasure, or a company is planning a large trade show, the level of customer service received during a trip will determine whether people come back or warn their friends and colleagues to avoid these businesses in the future. If this wasn’t enough pressure, in the wake of COVID-19, heightened concerns around health and safety have forced owners and operators to provide additional levels of customer service that address these anxieties as the industry seeks to recover from a long hiatus. From personalized guest services and occupancy comfort to improved facility management, leveraging IoT in hospitality can provide the magnitude of customer satisfaction needed to stay competitive while simultaneously helping hotels, restaurants and conference centres cut down costs.

Here are 7 Cutting-Edge Use Cases of IoT in Hospitality

1. Indoor Environmental Quality Monitoring

Indoor Environmental Quality (IEQ) has moved from the fringes of hotel design to the very centre-stage. The COVID-19 outbreak has brought concerns about hygienic spaces and clean air within hotels, restaurants and conference centres right to the top of the priority list. In the past, the primary focus of IEQ has been to cut down energy consumption, however, it has shifted to ensuring these spaces have clean air to breathe and the ambient temperature, light and noise quality is optimal for guest comfort. Wireless IoT sensors play a critical role in IEQ monitoring; providing insights into each of these critical indoor climate factors to protect the health, comfort and productivity of guests and employees.

2. Energy Optimization

Energy is the second largest spending category for a hotel after employment, representing 3% to 6% of hotel operating costs and accounting for approximately 60% of its CO2 emissions. IoT plays a vital role in ensuring energy resources are used efficiently and in accordance with sustainability efforts. Data from occupancy sensors in guest rooms, conference rooms or recreational facilities, coupled with the Building Automation Systems can be used to automatically adjust room conditions like HVAC, power and lighting, to optimize energy usage based on the room status, for example, checked-in rooms, occupied rooms and unused rooms.

3. Consumables Monitoring

Ensuring occupants have adequate access to vital consumables like hand soap, hand sanitizers, paper towel and toilet paper can be challenging, especially when the demand highly fluctuates and there’s a current bottleneck in the supply chain of hygiene materials. With the help of wireless IoT sensors, facility managers can proactively monitor when consumable supplies are running low in guest rooms, business centers and workout rooms for effective inventory management and timely replenishment.

4. Cleaning Services and Sanitation

With health and wellness top of mind, maintaining a regular disinfection and cleaning routine is paramount. People counting data combined with presence detection data can pinpoint areas that are frequently used and those that are not or provide timely notifications when meeting rooms, gyms and pools are no longer in use. Hospitality staff can then use this information to work more efficiently and ensure cleaning practices are carried out when needed.   

5. Traffic Control

Since the COVID-19 pandemic, businesses are required to enforce new restrictions on the number of visitors in their space to ensure compliance with government social distancing regulations. People counting systems can help track the number of people entering or exiting any given space in real-time and alert facility managers when their capacity threshold has been met.

6. Predictive Repairs & Maintenance

Customer satisfaction is greatly dependent on smooth operations and zero interruptions to service. Wireless IoT sensors can capture data on the condition status of hotel appliances, equipment and facilities and notify the maintenance personnel as soon as equipment shows signs of deterioration, or unusual performance. This not only reduces repair costs, but also ensures maximum uptime and performance of all amenities for guests.

7. Guest Room Automation

Another great example of IoT in hospitality is guest room automation. Smart hotel solutions now enable hotels to provide their guests with a completely customized service. For example, some accommodations offer guests the ability to control many of the room’s features from their mobile phone, or from a provided tablet. This might allow guests to control the lighting, heating, ventilation and air conditioning systems from one place, or even just specify a temperature and allow the various devices to automatically regulate the room to that temperature. It will also typically allow them to control the television, while some devices may even greet them by name. This connected network can also be used to identify the preferences of guests and provide personalized services during their next visit. Furthermore, hospitality businesses having their hotels in different locations can also share data about their customers in a common CRM to make sure that the guests come across the same experience in every branch of the hotel chain.

Wrapping Up

IoT is poised to revolutionize the hospitality industry. The vast amount of data derived from IoT devices has the potential to drastically improve operational efficiency, level-up customer experiences and significantly reduce costs. Fully harnessing such potential requires a robust IoT architecture that starts with versatile edge connectivity. Compared to wired solutions, wireless IoT such as low-power wide area networks are much more cost-effective and easier to implement. When navigating different LPWAN technologies, power-efficiency, scalability and excellent building penetration are key requirements to keep in mind. On top of that, you would want to ensure data ownership and simple integration of the wireless infrastructure in your existing business systems.

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LPWAN and Bluetooth Low Energy: A Match Made in Networking Heaven

LPWAN and Bluetooth

BehrTech Blog

LPWAN and Bluetooth Low Energy: A Match Made in Networking Heaven

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Given its significant benefits in terms of reliability, minimal latency and security, wired communications has been the backbone of industrial control and automation systems. Nevertheless, as the new wave of IoT applications arises, we quickly see wired solutions reaching their limits.

Trenching cables is inherently cumbersome, capital- and labor-intensive, not to mention the fact that damage to wiring brings the risk of production downtime. Due to the plethora of proprietary wiring protocols, any additions or modifications to the architecture is deemed costly and could even entail a “rip-and-replace” of cables and conduits. The bulky and expensive wired infrastructure thus limits the number of connected endpoints and is highly constrained in terms of range and network capacity.

In direct comparison, wireless networks require far fewer hardware components, and less installation and maintenance costs. As there aren’t any physical cables involved, sensors can be easily attached to mobile assets to tap into a new host of operational data. On top of that, wireless networks make data collection in hard-to-access and hazardous environments possible and can flexibly expand to meet your changing business needs.

The central value around IoT is the unprecedented visibility into existing processes, equipment and production environment that empowers strategic decision-making. Think of applications used for asset maintenance, facility management and worker safety. As opposed to high-bandwidth, time-sensitive communications, many IoT sensor networks send small-sized telemetry data periodically or only when abnormalities are identified. Of even greater importance is their ability to connect vast numbers of distributed field assets and devices to bring granular business insights. With this in mind, wireless connectivity is often the better option to bring your physical “things” online.

Given the bewildering range of wireless solutions available in the market today, choosing the right technology is no easy task. Not all wireless technologies are created equal and not all can manage every use case. For this reason, there is a growing demand in multiprotocol support. Devices that combine the complementary strengths of different wireless standards and frequencies in one design, such as LPWAN and Bluetooth, makes it feasible for more complex sensor networks to exist.

LPWAN and Bluetooth Low Energy: A Match Made in Networking Heaven

Bluetooth’s ubiquity and global, multi-vendor interoperability has made it the core short-range technology for industrial and commercial IoT projects. Bluetooth Low-Energy (BLE) enabled devices are often used in conjunction with electronic devices, typically smartphones that serve as a hub for transferring data to the cloud. Nowadays, BLE is widely integrated into fitness and medical wearables (e.g. smartwatches, glucose meters, pulse oximeters, etc.) as well as Smart Home devices (e.g. door locks), where data is conveniently communicated to and visualized on smartphones. The release of the Bluetooth Mesh specification in 2017 aimed to enable a more scalable deployment of BLE devices, particularly in retail contexts. Providing versatile indoor localization features, BLE beacon networks have been used to unlock new service innovations like in-store navigation, personalized promotions, and content delivery.

The challenge with BLE-enabled devices is that they must have a way to reliably transmit data over a distance. The reliance on traditional telecommunications infrastructure like Wi-Fi or cellular has put growth limitations on these sensor networks. Long range communication is often a significant obstacle in industrial settings because Wi-Fi and cellular networks are not always available or reliable where industrial facilitates or equipment are located. This is why a complementary, long-range technology is so important.

Geared for low-bandwidth, low computing end nodes, the newer LPWAN solutions offer highly power-efficient and affordable IoT connectivity in vast, structurally dense environments. No current wireless classes can beat LPWAN when it comes to battery life, device and connectivity costs, and ease of implementation. As the name implies, LPWAN nodes are designed to operate on independent batteries for years, rather than days as with other wireless solutions. They can also transmit over many miles while providing deep penetration capability to connect devices at hard-to-reach indoor and underground locations.

In this context, LPWAN extends the power efficient and high data rate capabilities of BLE devices by serving as a reliable and robust backhaul for long range communication in both complex indoor environments and remote locations. This increases deployment flexibility, reduces the need for costly and complex network infrastructure requirements and makes it more feasible for massive-scale sensor networks to exist.

You Might Also Like : Introducing the new mioty BLE Dual Stack

 

For example, LPWAN and Bluetooth Low Energy together, enable the deployment of IoT networks in a significantly broader geographic area. This flexibility is increasingly important as more IoT sensor networks are deployed in far flung, industrial locations like remote mining, oil and gas and manufacturing facilities.

Together, they also cost-effectively enable critical indoor applications like asset tracking and consumables monitoring that require reliable connectivity for a vast number of end-nodes. The physical barriers and obstructions as well as co-channel interference with other systems often present in indoor environments can create challenges for reliable data communication. However, the long-range, deep indoor penetration and high interference immunity offered by next-gen LPWAN technologies ensures reliable data connection in any large industrial campuses or smart buildings.

Wrapping Up

The success of any IoT deployment is dependent on reliable connectivity, which remains a huge obstacle for numerous industries like mining, manufacturing, oil gas and smart buildings. These industries are faced with complex and often remote environments where traditional wired and wireless connectivity options are not possible as standalone technologies. That’s why combining different technologies that cover each other’s drawbacks while also adding on top their individual advantages is critical for building a reliable and robust IoT network. The combination of LPWAN and Bluetooth Low Energy in one design, increases flexibility and integration and opens up a new world of exciting industrial and commercial applications. 

Click here to learn more about the new mioty BLE Dual Stack

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The Importance of Data Interoperability: 8 Experts Weigh In

Data Interoperability

The Importance of Data Interoperability: 8 Experts Weigh In

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Across all industries, maintaining a competitive advantage requires more than simply finding ways to optimize operations and reduce costs. It’s about being smarter. The chief motivation for adopting IoT technologies is the interconnection of critical data from disparate systems and processes to make more informed and intelligent business decisions.

This week on the blog we’ve asked 8 experts to weigh in on the importance of data interoperability in their industry.

1. PremiseHQ

Adam Belnap, VP of Sales & Customer Relations

Data interoperability is extremely important for one simple purpose: growth. The fusion of multiple data points brings huge value for operational insight, power to make educated decisions and to create shared workflows for improved efficiency. Companies that view all of their data as a complete resource for growth, will scale quicker and have a faster ROI on multiple areas of their business.  

2. ioAirFlow

Matt Schaubroeck, CEO

There are a number of systems that exist in buildings, and unless we can understand how each of these systems affects the other, we won’t be able to unlock that building’s true potential. Data is only helpful if you are able to use it properly – an interoperable dataset helps to increase the value of that data between multiple systems, the sum of which is greater than each of its parts. That interoperability also helps identify trends in the data that may not have been evident through a single system – multi-variable data analysis can unlock new insights that we are not yet aware of. Any data collection system should take steps to ensure that their information can be easily shared, while maintaining user confidentiality, security and anonymity. That balance between data confidentiality and interoperability will unlock new insights for data-driven solutions, both in buildings and across a wide variety of industries.

3. WIKA

Uwe Scherf, Global Senior Advisor IIoT

Data interoperability in general and between systems is one of the most important must-haves for IoT ecosystems. Without it, exchange, as well as consumption of data with a clear explanation of content, context and meaning, is challenging. This has a major impact on IoT ecosystem providers and end-users. If data interoperability is not sufficient, it will hinder the provider and end-user from reaping all of the benefits that IoT has to offer. It is the foundation of data exchange and data-based decision-making.

4. WEPTECH

Wolfgang Esch, Head of Sales

Before the time of OMS, meter data was formatted and transmitted in a company-specific way. Thus, there were different protocols and each company had its own formatting. For utilities, this represented a major effort to decode the meter data and bring it to billing. With the introduction of OMS, utilities can now process meter data from a wide variety of meter providers in the same way every time.

In the process of digitalization, this is more necessary than ever, because now the meter data can come to one platform via the most diverse transmission protocols. There, they must be able to be processed in the simplest way. This is only possible if there is a specification that defines the data format.

In this context, there are efforts towards OMS over LPWAN, GSM or Bluetooth. Only the adoption of a specification and standard will lead to the success of these technologies. This also needs to exist in data processing.

5. MERO

Nathan Mah, Cofounder

Data interoperability is a topic that forward-thinking properties are engaging in. In order to fully understand your data and how it can interact together, you must first choose the data sources you need to operate your business efficiently as well as be able to build the foundation of open vendors and integrations. Architecting vendor solutions around a data interoperability strategy is a critical component of any smart building portfolio, but some enterprises are further along in the conversation than others. 

Commercial buildings represent the perfect site of ideal data interoperability; they are physically and geographically finite, the use cases can be tied directly to ROI, and there are not yet extensive regulatory or government requirements to consider when developing a data interoperability strategy. In the future, we expect a “blueprint” of vendors who have well defined data interoperability and share data openly to gain traction in the market as smart buildings continue to scale. Leveraging various sources of data to targeted use cases for buildings, managers, and tenants will increase the overall customer experience and lead to an improved future for all.

6. Connected Sensors

Simon Brunet, President

Data interoperability via sensors can offer unique insights into the correlated systems. Interoperability shows us how much we can gain when aggregating larger pools of data, such as broader insights, which can allow the user to make broader decisions on informed data. In addition, there is a chance for indirect analysis or insights gained from an unrelated use case. 

7. Losant

Nugeen Aftab, Senior Manager

Data interoperability is what enables IoT applications to be useful. Data and the decisions that are derived from that data are not isolated to IoT systems. The contents and context of data and what the data analytics provides to the rest of the business is even more important. An IoT application is not an end to a mean. It’s a decision that, paired with other support, enables an organization to actualize broader company strategies from intelligent data sources.

8. Agvolution

Andreas Heckmann, CEO

Interoperability of sensors, machines and data services is the key to high user-friendliness and smooth deployment of IoT technologies. Unfortunately, in agricultural applications there is still a very heterogeneous and historically grown system landscape. At Agvolution, we therefore focus on the open and flexible exchange of data. Our IoT technology in particular uses mioty and other open wireless IoT protocols to provide the perfect user experience.

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IoT and Sustainability: 7 Applications for a Greener Planet

IoT and Sustainability

BehrTech Blog

IoT and Sustainability: 7 Applications for a Greener Planet

Traditionally, advancements in technology and environmental sustainability have seemed mutually exclusive. We often think of technological advancements as having a negative impact on sustainability. Since the first Industrial Revolution in the mid 18th century, technological innovations allowed humans to exert a greater influence over natural resources. This combined with the ever-growing population resulted in a heavier usage of raw materials and an increased amount of production, leading to a significant resource depletion and rise in CO2 emissions.

Until now, the factors that propel digital innovation and sustainability have been disconnected. One is motivated by extensive technological change led by IoT, AI and robotics, all promising to transform industrial and commercial processes. The other is driven by climate and environmental deterioration as well as geopolitical instability, all of which demand a new approach that prioritizes resource conservation and environmental governance — and in particular intensifies efforts to de-carbonize the atmosphere.

However, with today’s advancements in IoT sensor technologies and wireless connectivity, the two concepts of digital innovation and sustainability have become mutually reinforcing. Companies must embrace digital transformation and its business-critical insights in order to pivot to more energy-efficient practices, use resources more responsibly and organize processes in ways that reduce waste.

Here are 7 impactful ways companies can use IoT for sustainability:

IoT and Sustainability

1. Smart Energy Management

While reduced costs and user comfort has been paramount in the design of HVAC and lighting systems since their inception, customers and communities have placed an increasing emphasis on sustainable technology. Energy consumption accounts for more than 40% of a commercial building’s total energy use. It’s no wonder so many facility managers (FMs) are finding ways to optimize this system’s efficiency.

Until recently, HVAC equipment has often been regulated in a uniform, predefined fashion, causing wasteful problems like overheating or under-heating across the property. In this context, real-time, granular IoT sensor data enables on-demand, micro-zoned equipment control to achieve higher energy efficiency. What’s more, leveraging occupancy data can also unveil important trends in HVAC and lighting needs to optimize equipment schedules. For example, if HVAC and lighting systems are set to operate until 8pm, but data reveals tenants don’t stay later than 7pm, facility managers can cut one hour of daily energy use to greatly reduce their carbon footprint.

When it comes to usage monitoring, wireless utility submeters help deliver consumption data at discrete building areas or even on individual assets – especially energy-intensive ones. Having these insights at their fingertips, facility operators can swiftly identify and locate bottlenecks for counteractive measures.

2. Air Pollution Monitoring

Most of the rising global attention to air pollution focuses on the impacts that ozone, particulate matter and other pollutants have on human health. The World Health Organization (WHO) estimates that air pollution inside and outside the home is responsible for about 7 million premature deaths worldwide. The majority of these deaths—4.2 million—are associated with outdoor pollution. It is a leading environmental risk factor affecting urban and rural populations around the world.

Outside of the devastating impact on health, air pollution also has significant ramifications on climate, water, weather, renewable energy, food and vegetation. Recent innovation in low-cost pollution sensors has enabled a new generation of air quality monitoring that provides actionable high-resolution data at a fraction of the cost of traditional monitoring systems. Companies now have real-time snapshots of where air pollution is coming from and traveling to, and who and what is most affected.

For example, methane, the primary component of natural gas, is a potent greenhouse gas accounting for 20% of global emissions. The largest source of industrial emissions is the oil and gas industry, which loses $30 billion worth of methane each year from operations. In this context, an air quality monitoring solution enabled by a low-power wide area network (LPWAN), can provide operators real-time insight into previously undetectable leaks in far flung, remote locations, as well as the ability to remotely control valves to prevent further methane leakage.

3. Smart Waste Management

As cities grow, so does the amount of garbage we produce. By 2050, the United Nations estimate that 68% of world population will live in urban areas and the World Bank that solid waste will increase by 70%. The inadequacy and inefficiencies of existing trash containers and landfills may lead to the accumulation of garbage on city streets and to illegal dumping, with serious consequences for public health. At the same time, more frequent waste collection means more air and noise pollution, traffic, and higher public costs.

Smart waste management has often been discussed in the municipality context, but its benefits and applicability for enterprises are just as far-reaching. It helps to tackle the persistent challenge of emptying schedules that aren’t aligned with actual demand. With waste production rates varying from one day to another at industrial and commercial facilities, pickup trucks often arrive just to offload half-full dumpsters. Needless to say, this introduces increased costs and wasted resources, not to mention the amount of carbon emission resulted from redundant truck trips. In other cases, waste containers may already be overfilled before the collection schedule, causing unhygienic conditions and the potential for more hazardous emissions.

Wireless IoT sensors can combat these issues by delivering various real-time data on trash receptacles at facility managers’ fingertips. Knowing the current fill level of each container, they can better foresee when one needs to be emptied, as well as understand how much and how quickly each type of waste is being disposed on a daily and seasonal basis. On top of that, temperature and humidity data reveal useful insights into undergoing microbial activities inside individual dumpsters. Having all this information at hand, businesses can optimize the pickup schedule of each waste type for higher efficiency, as well as lower transport costs and environmental footprint. At the same time, they can make informed decisions about the container capacity and location to adapt to the actual demand and avoid unwanted overfills.

4. Fleet Management

There’s an increasing focus on the environmental impact of different fuel types, particularly the affect diesel engines have on air quality. When combined with the ongoing drive to reduce CO2 levels across the board, fleet operators are under more pressure than ever before to make sure their fleet related decisions take environmental factors into consideration.

Location, fuel consumption, idle time, driver behaviour and vehicle health all play a role in the total emissions produced by a fleet. IoT sensors powered by low-power wide area networks provide critical insight into these metrics to better optimize routes, improve driving behaviours and ensure timely vehicle maintenance.

For example, real-time location data allows for more accurate and responsive route planning. This reduces the amount of time vehicles spend idling in traffic, producing harmful emissions. Likewise, IoT sensors can be configured to identify and track sudden acceleration or braking, speeding, high-speed turning, frequent stopping, and slow driving – all of which result in wasted fuel.

5. Smart Water Management

According to MIT Researchers, more than 50% of the world’s population will be living in water-stressed regions by 2050. It’s therefore vital that individuals, companies and municipalities find ways to reduce the amount of water wasted annually. On average 85% of properties waste 35% of their water consumption by means of leaks. At the municipal level, pipe leaks can account for 20-30% of total drinking water. In addition, when factoring in the flood mitigation system, one to two tonnes of material waste per square meter is produced from demolition due to floods. This also makes mitigating water loss essential to reducing the waste that goes into landfill as a result of floods. 

Advances in IoT sensors and wireless connectivity have dramatically lowered the cost of gathering, storing and analyzing data from specific equipment, like pumps or valves, or entire processes like water treatment or irrigation. Sensors can monitor fill levels, control the quality water and be used to detect leaks. For example, by installing leak detection sensors in high-risk areas throughout a building or plant, facility managers can be alerted upon the very first sign of a leak allowing them to take remedial action. Taken a step further, hooking this data into a building management system enables automated responses like shutting off the supply valve or HVAC equipment.

6. Smart Farming

Faced with tough challenges of exploding world population, dwindling arable lands and natural resources, alongside growing extreme climate events, the agriculture sector is under undue pressure. According to the UN’s Food and Agriculture Organization (FAO), worldwide food production will need to increase by 50 percent by 2050 to feed an expected population of nearly 10 billion.

Optimizing farming efficiencies opens the door to a sustainable food production system that can cater to global demand while reducing resource usage and environmental footprint. Powered by granular wireless sensors, smart farming systems deliver real-time data of soil conditions and various external factors that play into crop growth. An analytics platform then processes this data for demand-based, targeted execution of various farming practices like seeding, irrigation, fertilization and fumigation. Having enough reliable data at hand, predictive models can even be developed to help identify and prevent conditions unfavourable to crop health. With IoT technologies, farmers can also monitor their cattle’s well-being and get immediate alerts on the first signs of illness, from anywhere.

Besides reducing inefficient and error-prone human intervention, smart agriculture boosts yields while minimizing chemical, water and other resource utilization. This, in turn, translates into higher production rates at a lower environmental footprint.

7. Cold Chain Monitoring

Roughly one-third of the food produced globally is wasted, with much of that loss occurring along the global supply chain. Overall, that translates to 1.6 billion tons of food, worth about $1.2 trillion, down the chute.

Temperature is considered the most important factor affecting the quality of foods. Improper temperature control and settings in the food cold chain can accelerate the deterioration of food quality, which can increase the generation of food losses and food waste.

Traditionally, personnel along the supply chain have manually read and recorded the temperature of goods to ensure optimal conditions. While this pencil scribble method is highly prone to errors, there also arises the challenge of goods moving through multiple parties (loader, carrier, shipper, and receiver) all of which have a different record-keeping system. This process significantly increases the risk of spoiled products in the event that a log is recorded incorrectly, not on time or unchecked altogether.

Smart cold chains provide end-to-end visibility of the supply chain from production and pallets to cargo and retailers. Wireless IoT sensors can track ambient conditions like temperature, humidity, air quality, light intensity and other environmental factors in any location, from anywhere, 24/7. When a threshold is breached, alerts are triggered in real-time to prompt immediate mitigation and avoid any compromise to the product’s integrity.

While technology has plagued environmental sustainability efforts in the past, it has now become an ally to building a greener planet. The advancements in IoT sensors and wireless connectivity are enabling individuals, companies and government to move to energy-efficient practices, use resources more responsibly and organize processes in ways that reduce or reuse waste.

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Smart Water Management: An Interview with Connected Sensors

Water Management

BehrTech Blog

Smart Water Management: Saving Buildings, Saving Money & Saving the Planet

An Interview with Simon Brunet, President of Connected Sensors

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Tell us about Connected Sensors? What is your focus and vision? What are your products?

At Connected Sensors our mission is to accelerate the transition to sustainable buildings by delivering innovative technology solutions to all stakeholders of the built environment. Our first and primary objective is to disrupt and innovate the water management sector within the Commercial and Multi-Residential High-Rise markets. We do so by focusing on three pillars: Saving Buildings from costly floods and damages, Saving Money for landlords and condo boards by reducing water and insurance related expenses, and Saving the Planet by reducing our ecological footprint as it relates to our water consumption.

We do so by enabling a variety of IoT sensors along with some powerful software that we’ve built and designed for the sole focus of commercial and industrial applications. 

How does your technology advance on other water management systems?

We’ve identified early on that one of the most attractive elements of this emerging wireless IoT business segment is its ability to deploy hundreds if not thousands of sensors in a short period of time with limited infrastructure changes as we’ve seen in the past. That said, this doesn’t come without its challenges. Battery life span and energy consumption have been some of the common challenges. We are proud to share that we expect to achieve a 10 to 15 year battery life which to our knowledge has yet to be achieved in the PropTech market segment. Beyond the battery life, we feel very strongly that our modular product design and its robustness makes Connected Sensors a very attractive contender when compared to other solutions for the commercial market segment. The modularity of the product enables us to quickly deploy new solutions as we identify opportunities for disruption.

What are the key benefits for consumers and landlords of a water management solution?

If we’re looking at it strictly from a cost perspective, a water management solution has a high return on investment.

First off, you reduce the likelihood of a water loss insurance claim and the subsequent costly insurance deductible. In addition, our solutions can also help increase our clients’ insurability, and can potentially help landlords lower their premiums.

Secondly, you reduce the loss impact from a flood, as well as the downtime to your common elements in the case of a flood.

Third, you improve the valuation of your building by reducing building degradation over time through monitoring and preventing floods.

Other benefits include: improvement of tenant satisfaction by reducing disruptive repairs and downtime, reduction of payroll expenses through monitoring systems, and reduction of operational costs by limiting contractor truck roll as well as improving your water bills through identification of leaks.

What role does water management play in sustainability?

Fresh water is a finite resource. My studies have shown that on average 85% of properties waste 35% of their water consumption by means of leaks. At Connected Sensors we seek to impact this statistic by providing water insight and reducing the quantity and volume of leaks. In addition, when factoring in the flood mitigation system it is worth mentioning that 1 to 2 tonnes of material waste per square meter is produced from demolition due to floods. By mitigating water risk we can in turn reduce the waste that goes into landfill as a result of floods. 

What are the key considerations for implementing a water management system?

The first question one must ask themselves is whether they are looking to reduce water risk and the likelihood of a flood or if they are more so interested in a complete water management system. The second question one must ask themselves is if this system is to be implemented in a retro-fitted property, a new build, or if this is specifically designed for the construction phase. Finally, the other important factor that must be considered is the budget that a company or individual is prepared to spend on such a solution. By answering these three questions we at Connected Sensors will be able to provide a carefully curated suite of options for our clients’ needs.

What are the wireless connectivity requirements for a successful water management solution deployment? Are there any other key network requirements?

When deploying a water management system we often find ourselves deploying hundreds of sensors at a time within a property. It was therefore imperative that we work on a secure LPWAN connection. It is for that reason that we partnered with BehrTech to embed their MYTHINGS wireless connectivity solution into our sensors.

What innovation and growth do you predict for water management in 2021 and beyond?

Smart Water Management is a young but quickly-growing market segment. According to Globe News Wire, the Smart Water Management market is predicted to have a compound annual growth rate of 12%, hitting $19 billion by 2025. We believe that the hard insurance market combined with the finite water resource will stimulate much needed disruption and innovation over the next few years which we are excited to partake in.

Smart Water Management with Simon Brunett

Simon Brunet

President, Connected Sensors

Simon Brunet is the Founder and President of Connected Sensors. Simon pursued and graduated with a Bachelor of Commerce degree from the University of Ottawa, majoring in finance. Over the past decade, Simon has collaborated and worked in the insurance solutions space.
As a sister company to Connected Sensors, Integricon is a restoration and construction firm that specializes in both insurance and private work. Through Integricon’s emergency restoration book of business, it was identified that water is the greatest cause of loss within the built environment, with 48% of claims caused by water loss. It was this jarring statistic coupled with Simon’s passion for sustainability and strong social consciousness that led to the inception of Connected Sensors.
 Over the past year, Simon has meticulously researched and developed a unique comprehensive solution and driven approach to reducing building risk and managing water. His finance background has given him the tools to create and implement models that deliver a return on investment for all stakeholders, from the insurance company to the property owner and manager. It is Simon’s holistic and conscientious approach to providing water management solutions that has inspired Connected Sensors’ vision to ‘Save Money, Save your Building and Save the Planet’.

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CO2 Monitoring: The Corner Stone of Indoor Air Quality

CO2 Monitoring

CO2 Monitoring: The Corner Stone of Indoor Air Quality

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There are numerous factors that contribute to a healthy and comfortable indoor environment; lighting, sound, humidity, cleanliness and temperature, but since the pandemic, air quality as taken a priority position. On average, people spend approximately 90 percent of their time indoors, where the concentrations of some pollutants are often 2 to 5 times higher than typical outdoor concentrations. Carbon dioxide is one of the greatest contributors to poor air quality. As the number, size and activity levels of the people present in a building increase, so do CO₂ levels, opening the door for widespread airborne contaminants.

The Impact of CO₂ on Health

In poorly ventilated rooms, CO₂ concentration increases rapidly, which crowds out oxygen. Carbon dioxide is considered a simple asphyxiant because it reduces the amount of oxygen available for each breath. For example, a 4 m2 space occupied by only one person, increases CO₂ levels from 500 ppm to more than 1,000 ppm, in just 45 minutes. Now consider the impact a crowded office, classroom or conference centre has on indoor air quality. Excess carbon dioxide concentrations of 1000 ppm-2500 ppm can lead to fatigue, lack of concentration and can contribute to the symptoms of Sick Building Syndrome such as headaches, eye, nose and throat irritation, itchy skin and nausea.

Indoor carbon dioxide can also impact our decision-making and problem-solving skills. A Harvard led study shows cognitive function scores of office workers were 50% lower when CO₂ concentrations reached 1400 ppm. The connection between indoor CO₂ and cognitive functioning is also important for parents. A study done in Texas revealed that most schools had carbon dioxide levels above 1000 ppm, and one in five had levels exceeding 3000 ppm. This level of CO₂ can inhibit a child’s school performance and overall health and wellness.

Amidst the pandemic, CO₂ levels are under much further scrutiny with mounting attention on its impact for transmitting respiratory infectious diseases. If there is a high amount of exhaled CO₂ in the air, there is also a high number of aerosols. If pathogen-containing aerosols and CO₂ are co-exhaled by those infected with COVID, this can significantly increase the risk of infection for everyone else in the room.

Enter Wireless CO₂ Monitoring

The combination IoT sensor technologies and wireless connectivity have become an intrinsic part of indoor environmental quality strategies. Wireless air quality monitoring sensors provide granular real-time insight into not just CO₂ levels, but also other harmful contaminants like particulates, pollutants and noxious gases that can drastically impact the health and safety of occupants. When CO₂ levels reach unsafe thresholds, triggers can be sent to building automation systems to activate ventilation and HVAC filtration. Likewise, when low or no CO₂ levels are detected in specific rooms or spaces, these systems can be turned off to ensure optimal energy efficiency. With real-time notifications, wireless CO₂ monitoring can also prompt manual efforts to improve airflow such as opening windows and doors.

Paired with innovative IoT connectivity like Low Power Wide Area Networks (LPWAN), CO₂ sensors can ensure reliable and scalable data transmission in indoor environments and possess a battery life that span years to minimize maintenance overhead. This is particularly important when it comes to a campus-style deployments such as an office complex or retail centre where a vast number of distributed sensors are required.

As the economy slowly reopens, offices, restaurants, schools and beyond are faced with restoring trust and confidence in the built environment for every individual person. Today, state-of-the-art air quality sensors can be instrumental in minimizing harmful indoor contaminants and facilitating faster responses to acute health risks to deliver enhanced health and wellness and peace-of-mind to all occupants.   

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2021 IoT Predictions: 10 Experts Weigh-In

2021 IoT Predictions

2021 IoT Predictions: 10 Experts Weigh-In

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One lesson we can take away from 2020: predicting the future is difficult. Factors outside of our control can significantly impact our plans – either propelling us forward, or knocking us off course. Many organizations had to shift their plans in 2020, but nonetheless significant patterns have emerged across IoT and wireless connectivity that can help us gauge what to expect from this industry in 2021. In this blog, we’ve rounded up experts in both commercial and industrial IoT to share their 2021 IoT predictions.

1. Xandar Kardian

Sam Yang, Managing Director

I’m a firm believer that IoT devices that can provide real tangible benefits via automation will be the future – and thus will succeed in 2021. Take for example a smart TV with IoT features that you can control via an app. You may be able to change channels and control volume with it, but it is still not able to automatically turn it off when the occupant falls asleep on the couch or automatically apply parental controls when only kids are viewing it. IoT sensors that can provide true data that empowers automation without invading privacy (like using cameras) will fire up the IoT market in the near future.

2. PremiseHQ

Adam Belnap, VP of Sales & Customer Relations

With 2020 in the rear view mirror, uncertainty remains on what the “new normal” will look like. As we all get used to the restrictions and implementations that are upon us, it is the development of new IoT applications that will give us some encouragement by allowing us to adhere to the provincial and municipal guidelines more efficiently. As well, allowing properties to adapt to the changing requirements that are specific to various COVID-19 affected regions that they might occupy.

One of the most important applications going forward will be the effective use of occupancy sensors and occupancy monitoring.  With the focus on social distancing, and monitoring facility capacities around COVID-19 protocols – occupancy monitoring is going to be something that everyone will grow to rely on in 2021. Knowledge is power, be it for staggered employee scheduling or seating assignment or for capacity counting in stores and restaurants. This allows owners and facility managers to review the information in real-time, so that they are able to make effective decisions and necessary adaptations.  

Additionally, we are seeing a strong push toward the importance of water management and leak detection as a staple in the ownership and management of properties.   Leak detection sensors are an IoT solution that is showing an increase in interest over the last year as insurance cost and deductibles within the built environment continues to increase at a rapid pace. With challenging rent control, rock bottom cap rates and ever increasing expenses involved in managing and owning a property, landlords, property managers and condo boards find themselves in a problematic situation and the risk management of water as an investment is proving to be an important consideration for any portfolio.  

IoT applications in all areas will continue to be important as we progress through the “new normal” into what eventually will be referred to as “normal” again; but driven by technology, efficiency and optimization.

3. CGF

Tom Corbit, Managing Director

The focus on health and safety across all industries is driving the demand for new IoT solutions. For example, building occupancy has become increasingly important for commercial environments. IoT will be used to gather data on safe occupancy counts as it relates to social distancing in retail, corporate, hospitality and event spaces. This data will also be used to control building access and work space cleaning schedules. Likewise, the demand for indoor air quality monitoring solutions will surge to ensure proper ventilation and reduce the risk of airborne illness transmission.  

4. MERO

Nathan Mah, Cofounder

In 2021, we’ll see a surge in smart building solutions that are able to prove their ROI within 1-2 years, or faster. Fair or not, technology is evaluated on the shortest timelines, and this is no different for the built world. Tenant experience, HVAC, smart cleaning and labour are all critical and you can expect these areas to expand with the best IoT products.

5. ioAirflow

Matt Schaubroeck, CEO

2021 is going to be the year of using IoT to monitor our individual, collective, and environmental health. Once COVID vaccinations allow us to leave our homes, we will still be more cautious about the spaces around us and their effect on our health. Wearable technology can track our personal health indicators, while smart building and smart city tech can help us understand if we are spending time in healthy spaces. With working from home being seen as more viable, there will continue to be a spike in demand for smart home devices. Monitoring our environments and health will better inform our actions, and I expect to see the public and private sectors move next year to make this information more accessible for all.

You Might Also Like: 2021 IoT Predictions: Industries Expecting the Biggest Gains from Sensor Networks

6. Losant

Nugeen Aftab, Senior Manager

It’s a really interesting year to be asking this question because of the pandemic and the affects it has had on the IoT and it’s relevance in dominant industries and industries that will increase IoT adoption due to COVID-19. We’ve seen a shift of emphasis over to applications that track, reduce, or eliminate human contact. For Losant, that’s been contact tracing and social distancing applications. My guess is that many companies will have put aside budget for 2021 to reduce the need for workers in densely populated areas like factory lines and warehouses, so we’ll see more companies focusing on manufacturing automation and lone worker scenarios such as remote maintenance workers. There’s also a whole subset of industries that have increased importance in 2021, like cold chain tracking and supply chain in general in wake of the COVID-19 vaccine deployment. As much as we don’t want life in 2021 to be centered around a pandemic, it will be and it will show in IoT.

Aside from pandemic use cases, utilities are really seeing the benefits of IoT use cases as well as addressing consumer demand for connected solutions. More and more organizations want to track energy distribution and consumption and want to implement water flow management, whether those organizations are property holders, energy distributors, or cities themselves.

7. Majik

Jared Evans, COO

We are seeing a huge increase in requests around remote monitoring and support tools. Since so many people have been forced to transition to working remotely and being socially distanced, we are all searching for alternatives to having additional people out on plant floors walking around to gather meter readings, head off equipment failures, or complete routine maintenance tasks. IoT products are stepping up to fill in this need, and the growing maturity of applications is now allowing us to do things like re-program PLCs and troubleshoot issues with a technician remotely rather than being physically present. Even as the pandemic subsides this year, I do not think that these applications will go away: there’s too much value in allowing your best technicians and support personnel to work wherever they need to be. 

8. Enduralink

Brian Ellis, CEO – USA

Within the Oil and Gas industry we see that IoT is going to transform the way much of the field data is gathered & shared. Message based LPWAN will become the preferred method for data acquisition and monitoring. This will rapidly enable new and exciting control, monitoring, AI and overall field systems management capabilities.

In 2021 we expect to see large scale adoption of industrial battery powered LPWAN IoT sensors. This will be in both green and brown field modes of deployment. The advances in IoT device technology will fundamentally change the way temperature, pressure, flow and other simple measurements are obtained & delivered to production and field operations management & control systems. We see stepwise replacement of much of the traditional SCADA infrastructure and enabling data streams  that were just too expensive to employ previously.

The solution services are numerous where these new IoT capabilities will deployed. Production management & optimization, equipment monitoring and secure data for next gen B2B digital transactions, to name but a few.

In addition we see a new generation of very smart but low cost LPWAN IoT asset tracking devices, enabling several new business process management improvements across the  oilfields asset and materials base.

9.Orange Oranges

Atul Sali, Cofounder and Director

COVID-19 will have a direct impact on the IoT applications we will see in 2021. For example, health and wellness solutions like indoor environmental monitoring and occupancy detection will surge across all industries as organizations make a concerted effort to keep their employees, tenants and occupants safe. Wireless tracking solutions, real-time location systems and remote health monitoring will provide invaluable data on patients, staff, facilities and assets to not only give patients more control over their lives and treatment, but improve operational efficiencies so that healthcare professionals can focus more on patient care. Remote monitoring and maintenance solutions in manufacturing will also expand as a result of the new remote workforce and social distancing guidelines.

10. BehrTech

Wolfgang Thieme, CTO

As we’ve seen with the connectivity options for smart buildings, not all wireless technologies are created equal and not all can manage every use case. For this reason, we can also expect to see growth in multiprotocol support. Devices that combine the complementary strengths of different wireless standards and frequencies in one design, increases flexibility, integration and as new IoT use cases rise, makes it feasible for more complex sensor networks to exist.

For example, LPWAN and BLE together provide short-range, inter-device communications with a long-range backhaul to allow the deployment of IoT networks in a significantly broader geographic area. This flexibility is increasingly important as more IoT sensor networks are deployed in far flung, industrial locations like remote oil and gas fields.

In addition, multiprotocol will bridge the gap between existing and new technologies enabling legacy sensors to work in new environments and be deployed in new use cases. In addition to devices, multiprotocol support will also be paramount in the next generation of IoT network and device management solutions.

What are your 2021 IoT predictions?

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