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Overview

As with so many things in life, first impressions can often be deceiving. Only after careful examination, investigation, and inquiry can a thing really be known and understood. The deceptively small and simple exteriors of Cellio disguise the amazingly powerful and capable set of devices that can completely transform an organization and fast track operational improvements not witnessed before in edge-to-cloud industrial automation.

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Feature Packed Packages

Top 5 Cellio Transceiver Features:

  • 16 Points for sensors (Analog, Digital) and controls (Digital)
  • Support for RS-485, 1-wire, dry contact sensors, and more
  • LoRa (Long Range) communications protocol
  • Internal antenna supports transmission distances up to 1 mile
  • Powered by 9VDC battery

Top 5 Cellio Gateway Features:

  • Cellular (CDMA or GSM) or Wi-Fi (802.11) wireless connections
  • GPS capable for asset mapping and mobile installations
  • Internal backup battery supports Gateway if external power is removed
  • IP68 dust-tight and water-tight enclosure
  • Can be powered by wall power or solar power

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Conclusion

The Cellio Wireless Network has been designed to be quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and in place today. There is a saying that you should “Inspect what you expect”.  When you get under the hood with the Cellio product you will come to appreciate the elegance of the simplicity and the power that serve both fit and function. Come take a look at our mighty IIoT end-to-end solution.

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Overview

We have heard a number of customers say the following phrase, “because we don’t have someone there watching it all the time.” And for equipment and supplies that are critical to the operation of the business, certain failures need to be identified as soon as they happen (if not before). With inexpensive devices that can be placed in and around the assets in an operation, the ability to monitor devices in real time can provide insights that could be used for advance notification as well as notifying anyone/everyone involved so that critical issues can be resolved as quickly as possible. In some ways, not only can the Cellio IIoT devices help to make and save money, they can also be considered as inexpensive insurance.

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IIoT Devices to Identify Issues Before, During, After Failure

The very nature of IIoT devices deployed in a distributed manner in and around the assets in the operation translates into constant monitoring. What is monitored, and how, is critical to generating the information that can be used to determine if things are within, if they are trending out, or if they have exceeded acceptable operating parameters.   Armed with this information, critical elements in the operation can be remotely monitored, reported, and produce notifications to equipment and process owners for preventative maintenance and issue resolution. Most importantly, if the issue is located in a place that is not typically monitored in some other way, the IIoT device can assure that if something goes awry that someone gets notified – immediately. The IIoT device, via the sensor, detects the “out of bounds” condition, generates an alert that is relayed via the Gateway device to the back-end. The back-end evaluates the state and based on the priorities and settings of the organization, notifies those people and resources appropriate for the response. If used for collecting data regularly about the state of the equipment (or inventory level), the information could notify relevant stakeholders about potential issues that could lead to a failure before the failure occurs. Depending on the impact of a failure, detecting it in advance might be more valuable then simply fixing things after they fail.

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Conclusion

The Cellio Wireless Network has been designed to be quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available in place today. There is a saying that you should “Inspect what you expect”.  If someone isn’t able to watch critical resources 24×365 having affordable devices that are watching the critical resources may very well be the best option for assuring and insuring that issues are detect and resolved as early as possible – ideally averted all together. When you consider that these humble devices can be deployed and provide alerts to situations that could cost Million$, you might start to wonder if a case could be made to an insurance company for reduced premiums.

Overview

They say, “what gets measured gets done”. This is no truer than in IIoT installations where the saying might be adapted to “what gets measured gets reported, regularly”. In fact, there are a growing number of stories where some frontline workers and some managers have initially been reluctant to have IIoT devices installed – the additional visibility that comes from devices regularly reporting measurements may expose practices that are inefficient and detrimental to operations and net profits. In time, reluctance turns into relief.

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Using Ingredients in the Correct Order

In many businesses, research and experimentation has been done to determine the best order in which to use ingredients. However, in practice, where there is not enough oversight or attention paid to the level or order of ingredients, the ingredients may be added or used in the incorrect order. The net result of the use of ingredients in the incorrect order can be sub-optimal sizes, durability, or value of the resulting product. Ultimately, across many production sites and many batches, this amounts to significant losses in profits. IIoT devices installed and monitoring can identify those areas in which ingredients where not fully utilized or used in the incorrect order to notify business owners of opportunities to address “best practices” as quickly as possible and the information can be leveraged as a “teaching moment”. Ultimately, if and when the workers and managers get on-board, they can leverage the IIoT devices to increase their own visibility and validate their adherence to the standards. The real “win” is when they decide to become partners in evaluating additional areas and opportunities to improve results.

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Ordering Ingredients in Time (Risk of Running Out)

Associated with using ingredients in the wrong order, we have seen where ingredients that are running low are not re-ordered in time. In the worst case, this can have catastrophic impacts on the current production batch (where everything has to be destroyed and disposed) or at best case an emergency delivery (with all the additional “rush” charges, overtime, and lost productivity) is delivered in time to keep things running with no interruption. In the spectrum between “destruction and interruption” there is a wide range of losses that are incurred. With IIoT devices in place, potential issues related to ingredients running low can be identified early and addressed in a timely (and cost effective) way. Most importantly, this information does not rely on someone remembering to check the levels or rely on them to measure the levels accurately and consistently. The dependability of the IIoT generated measurements becomes the primary input – with full expectation that workers or process owners will audit the measurements regularly to confirm the IIoT provided measurements.

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Timely Reporting of Equipment Failures

If there isn’t a predictive maintenance program in place to adhere to scrupulously, the next best thing is to have IIoT devices monitoring equipment to detect the moment that operating parameters have gone outside acceptable ranges. This real-time, and near-real-time, information can be the difference between knowing things are running well and hoping that things aren’t failing. For example, a simple water pump required to keep process equipment cool could fail and then minutes or hours later critical equipment that depends on the cooling water can fail bringing the whole operation to a halt. With IIoT devices monitoring the water pump, these early risks can be detected immediately and addressed before they turn into irreparable damage and guaranteed extended downtime. With the relatively small expense of the IIoT devices, significant increases in income can be realized.

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Bonus: In Depth Detailed Analytics

Extra benefits come from having IIoT devices collecting data from multiple aspects of the industrial processes, supplies, and logistics for future analyses. While the immediate benefits are in the instant visibility to levels and measurements, the longer term benefits will come from collecting a data history and correlating the data with other environmental variables to uncover hidden factors and validate any proposed improvements. For example, in one case, it was identified that the weather had a direct and measurable impact on the rate of update of various ingredients. With this insight, future production runs now take into account weather reports to adjust ingredient inventories. In yet another case, data was analyzed to see why certain sites were producing more optimized results, it was determined through the data across all sites that the suboptimal site was failing to fully utilize one ingredient before switching over to the subsequent ingredients. All of these findings demonstrated real losses in revenue and net income. Based on the findings, both revenues and income were increased without any indirect or unintended consequences.

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Conclusion

The Cellio Wireless Network has been designed to be quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available in place today. There is a saying that you should “Inspect what you expect”.  In many cases, the recommendations provided by corporate groups and third parties is well-researched and valid.   From the conveyance of the information to putting it into practices that are adhered to, there is a wide range of implementation success and compliance. Is it any wonder that outcomes are also so widely varied? With IIoT devices, the data from across all sites, all production runs, and various operators and managers can be gathered, viewed, compared, and analyzed. As we find most frequently, it isn’t that workers and managers don’t care, they just have so much on their plates that they can’t pay attention to everything, nor all at once. When no one else is able to pay attention to critical measurements, you can count on Cellio.

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Overview

Pragmatically speaking, successful innovation, evolution, and technology adoption have focused in areas where the benefit is at least an order of magnitude greater than the cost – in technology this is equivalent to a “slam dunk”. From the business perspective the classic 2×2 grid of value versus cost is usually consulted as a tool to map out and compare options and courses of action. Let’s explore, at a high level, how Cellio helps organizations access the most desirable quadrant on the value map.

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Value/Benefit is both Direct and Indirect

We find that many of our customers have a number of business pressures to move from a manual process of data collection to a more automated approach. The obvious solution is an inexpensive wireless solution that doesn’t require running cables or wires (which can be quite costly and subject to damage by rodents, equipment and regular wear and tear). From wireless edge devices, data can be gathered at a frequency that satisfies the needs of individuals and process inputs that will keep them informed of either the actual measurements and generate alerts to situations of concern that need attention to avoid critical errors – in this way, the data appears “real time” to the users. Some of the indirect benefits include reducing or eliminating risky measurement or monitoring situations that put workers in harms way. Additionally, workers have been known to get distracted or prioritize other activities over the measuring activities leaving the downstream data users questioning the status and accuracy of reports of the upstream inventories, levels, status, etc. Thus, the consistency, regularity, and automated data provided by the wireless data logging, monitoring and reporting can provide data in a timely manner on which people and processes can depend and make informed decisions.

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Costs/Effort need to Account for Total Cost of Ownership (TCO)

The analyses our customers have run on costs consider items that include lost efficiencies, overtime pay, time spent from non-core activities, missed information from inconsistent measurements (resulting in critical situations that require remediation), potential risks to people and equipment, equipment maintenance, and other factors.  These factors are then added to estimates for expected gains in productivity, purchasing optimization, logistics efficiencies, and consistency of data for future analytics. In comparison, the cost of the devices and sensors is relatively low, as are the minimal amounts of maintenance of the installed devices, and the low annual data related fees for transmission and storage.

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Cellio Delivers on Low-Cost/Effort and High-Value/Benefit

The relative ease, affordable pricing, and ability to deliver a full Cellio IIoT deployment in a very short period of time (including data connections, data storage, dashboarding, native mobile app access, customized alerts/notifications, and connections to enterprise systems) squarely places Cellio in the upper right quadrant of the Cost/Value chart.

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Bonus: Cellio LoRa

One of the aspects of the Cellio system that enables the system to deliver significant value for the cost can be found in the use of LoRa for extending the range from Edge devices (Transceivers) to the Gateway devices. This ability to place as many Transceivers as desired in an area and have them all report back through a single Gateway drives the costs out of the edge devices and assures that the overall solution is as affordable as possible. Additionally, factoring in the small battery usage of the LoRa edge devices (a 9VDC battery can last for 5+ years without having to be replaced) and system-wide installation, maintenance, and dependability are greatly enhanced.

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Conclusion

The Cellio Wireless Network has been designed to be quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily deploy and expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available today. There is a saying that you should “Inspect what you expect”.  Cellio has been designed to shift the equation to more heavily favor value over costs.   From the design of the devices to consume as little power as possible, transmit only the desired data, drive down associated transmission costs and battery consumption, and deliver a whole solution that consistently provides successfully deployed systems from end-to-end in as little time as possible, Cellio delivers.

 

 

 

 

 

 

 

 

 

Overview

One of the most powerful features of a well-implemented IIoT solution is the ability to get reports and alerts/notifications of just those conditions that are cause for concern – exceptions. The reason “exceptions” are so powerful is that in their apparent simplicity there is a considerable amount of complex thinking and decision making to know the most important things to monitor and the frequency to monitor them. In general, it is important to align the reporting time with the rate of change (or potential failure rate of a thing monitored) as well as considering the response resources, timing, and remediation process. For example, monitoring and reporting on something every minute that doesn’t require attention or concern but on a weekly basis is overkill, while monitoring something once a week that could have immediate ramifications within an hour is not aligned either.

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Exceptions in Monitoring Gas Fill Levels

Consider the scenario where your organization needs to monitor the level of gas in a tank.  Depending on the size of the tank, the refill frequency, and the usage rate, a small personal tank might require a more frequent rate of monitoring than say a large industrial tank that is filled once a week and has a capacity to last for two weeks of operation. In the case of the small personal tank, hourly checks might be warranted with an immediate exception reported when the tank gets to a level where the user has enough time to get a refill or replace the tank before it runs out. In the case of a large industrial tank, once a day checks could accommodate verifying the level, identifying any potential leaks, and also in rare cases alerting the “owner” of the tank that it needs to be refilled if it goes below the “safety” level. In the industrial tank scenario, it is important that the “safety” level be set such that the daily reporting and the time to get the tank refilled are considered and factored in. In both cases, the owners of the tanks would only expect to see an alert/notification when the tanks reach their thresholds – this consistency will lead to owners paying attention to and responding to the alerts/notifications in a timely manner. If the exceptions are set incorrectly (where they are not that meaningful) the owners may increasingly ignore the alerts/notifications since they get too many or too late.

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Exceptions in Monitoring Mobile Assets

For many mobile assets, it is important to know both the location and also the current “state” of the asset. A good example is a container that the owners would like to know exactly where they are located and also if the container is empty or full (and possibly if the container is upright or upside down). With this information, owners can determine which assets are utilized and which ones can be scheduled for use. In addition, users can set exceptions to send alerts/notifications to let them know when one of their containers “goes off the grid”.   Whether the container has gone into a “dead zone” for signals, across a border or boundary, or is headed in a direction that it shouldn’t be going, these timely exceptions can help avert costly mistakes and losses. Imagine the case of a container that is worth $10k’s of dollars (USD) and is expected to stay within one state (say Texas), assuming the container is checking in four times a day with its status (location, signal strength, battery level, empty/full) if at some point the container starts to head “off course” or ceases to check in, an alert could be triggered at the first missed “roll call” or after the second or third missed check-in to alert the owner that there may be an issue to be investigated further. If all the containers are checking in regularly and within their set boundaries, then no notifications or exceptions are generated and the owner can be confident that things are within the required parameters. An additional benefit is that the owner can look at a map of all the assets at any given time and see, with confidence, where everything is and what the status is of each asset. This convenient “report” can save significant time and money when considering the manual effort that goes into tracking mobile assets today.

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Exceptions in Monitoring Farming

In agricultural settings, there really isn’t the concept of “a day off”. Plants and animals have to be fed, watered, and monitored 24×365 to assure optimal growth and health. The inputs to these processes typically include large “bins” that hold fertilizers, feed, raw ingredients, finished goods, liquids, gases, and many others. Batch, distribution, and delivery logistics are critical to make sure that the right items are delivered to the right location on the farms in the right quantity, at the right time, and in the correct order. If deliveries are delayed (or missed altogether) the crops and livestock will be put at risk. In most cases, accurate advance warning of low-level conditions can make the difference of buying the optimal quantities in time to optimize purchase price and delivery. Thus, alerts and notifications generated from exceptions that are aligned with the low level condition (or fill condition) and inform all of the owners along the process of issues and opportunities to address and leverage, respectively, in order to squeeze as much efficiency out of the resources as possible – all while prioritizing the welfare of the crops and livestock in their care.

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Bonus: Mapping Exceptions

Of all the potential reporting “views”, few are as profound and concise as a map. Whether the map is a classic geographical format, or is arranged as a process view, or even configured as an organizational hierarchy, the map provides a considerable amount of information in a small area. Maps are made even more useful by color-coding those items that are in an exception condition with colors (like RED = bad) so that users and owners can quickly see those items needing attention and then focusing in on them. Similarly, and sometimes preferred by users/owners is a map that is displayed as a table with color-coded cells. The advantage for users who have a table view is that the data can quickly be exported from the view and imported into other tables, emails, or documents for use in managerial reporting. Depending on the factors most important to users/owners, colors, data, and alerts can be configured to display the exceptions that are most relevant and timely so that they can be addressed accordingly.

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Conclusion

The Cellio Wireless Network has been designed to be quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available in place today. There is a saying that you should “Inspect what you expect”. When determining alerts, notifications, and reports various users and levels of organizations, it is important to consider how, why, how often, when and what the result will be when an alert or notification is generated. The alignment of the condition monitored with the timing of the response can assure that when a user/owner receives and alarm that they will pay particular attention to the exception and take whatever steps necessary to address the condition before it becomes critical. So, it’s also important to “Inspect what you except.”

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Overview

Most people don’t realize just how many sensors are already installed to monitor things around us every day and in every aspect of our lives. For example, smoke detectors (and carbon monoxide detectors) are in most every house and apartment. Temperature sensors (thermostats) are installed in every house that has an air conditioning/heating unit. Hot water heaters have a temperature sensor built in to detect/manage/maintain the temperature of the hot water. Float switches are in our toilet tanks to keep them from overfilling and flooding our homes. In cars, sensors for fuel level, engine temperature, oil level, and emissions are monitoring the performance of the vehicle. And in Industrial settings, even more sensors are present to keep equipment and processes in range – and alert us when they go out of bounds. The primary drawback for most of these sensors is that the information from the sensors is integrated into and limited to the device – not accessible remotely by users or other devices. Remote access to the data from these sensors could improve efficiency and safety. Consider the example of a mission critical pump motor that keeps an area from flooding and works on a float switch. If no one is there to manually monitor the water level, the switch, the motor/pump, and the flow of water being discharged, blind faith is relied upon that the system is working. Wouldn’t it be smarter and safer to know when the water level is too high and have confirmation that the motor is switched on and running?

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Simple Electro-Mechanical Sensors

Sensors are typically digital or analog. This simply means they indicate if something is ON/OFF, or provide some level of measure between ON and OFF. For example, the digital signal of a fill level in a tank might be that it is EMPTY or FULL or that the acceptable set level has been exceeded. Alternatively, an analog sensor used in the same tank might generate a signal that indicates a measurement of the level of the liquid in the tank to an accuracy of within an inch. Both of these sensor types are useful and acceptable for monitoring tank level – it depends on the application. In either case, the mechanism may be mechanical and the output of these sensors is electrical.  This electrical “signal” provides the information that is then used to determine the level and whether there is a need to turn something ON or OFF.

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Simple Connections to Inputs

Most of these simple sensors have one output that provides the electrical information (the signal) to devices like Cellio through a direct wired connection. Once the sensor is wired to the Cellio Transceiver device, Cellio monitors the electrical signal for the measurements from the sensor and then transmits them wirelessly to Cellio Gateway devices. From the Cellio Gateway devices the information is sent to back-end data storage where it can be used for alerts, notifications, computations, analytics, display, and decision making. The collected data can be graphed, compared, calculated, stored, deleted, shared, re-transmitted, and much more.

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Turning Simple Sensor Inputs into Complex Decision Making

Data from one sensor monitoring one aspect of one item can be used to produce powerful results, especially if monitoring something that had previously gone without monitoring. More impressive, and complex, results can be achieved by remote monitoring aspects of many items in a process, a facility, an enterprise, up and down a supply-chain, and especially across a geography. For example, monitoring the water levels of a widely spread set of monitoring wells/reservoirs could give citizens, businesses, and public officials advanced notification for conditions that could turn into flooding, mudslides, traffic accidents, and other emergency situations. How the collected data from the sensors is aggregated, analyzed, and distributed is critical to how the data can be used for decision making. Decision making with Cellio and connected devices could be as simple as sending out and alert/notification over SMS or email. Or it could be as complex as sending a signal to a device (like a PLC) or to another process system that starts to pump the water in a coordinated way to alleviate current conditions and avoid compounding the problem by swamping out a pump further downstream. The impact can be profound.

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Bonus: Turning Inputs into Outputs

Seeing consistently, accurately, and timely what is “in the field” not only improves visibility and situational awareness to make more informed decisions, but it also provides a platform from which to use the informed decisions to remotely control devices in the field. As noted above, as the picture (on a map, in a table, through graphs, in a process diagram, or other relevant visual representation) forms from reports of devices in the field, short term, mid term, and long term options can be assessed while immediate action can be taken to alleviate conditions that could lead to equipment failure (unless allowing the equipment to fail would lead to a better overall outcome). Cellio devices also provide the capability to output electrical signals that can be used to signal/control devices in the field. For example, an output could turn on a red light that is used to signal workers of an error condition (or a green light that is used to signal an all clear condition). These output signals, coupled with simple or complex logic and help process and equipment owners close the loop.

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Conclusion

The Cellio Wireless Network has been designed to be as quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and easy to put in place today. There is a saying that you should “Inspect what you expect”. From simple sensors generating simple data link tank empty/full, to vast networks of tanks that warn of impending flood conditions, Cellio can be counted on to monitor and wirelessly report the data so that it can be used to make very simple or very complex decisions – and then send information back to the devices to respond in as efficient and effective a manner possible.

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Overview

For some users, having a simple notification or alert when a certain condition exists, is all the remote monitoring they want. For example, there are compliance requirements in many industries where if something is too full, too empty, too high, too low, an item has gone active, or an item has failed that someone needs to be notified quickly in order to protect people and property. In many of these cases the monitoring of the devices is done manually by workers and volunteers checking the status regularly and in many cases recording and reporting the information via paper logs to clerks or managers who transcribe the logs and record them electronically. Depending on the regularity, consistency, and accuracy of the manual checks, compliance may or may not be achieved. These manual “costs” may be quite high when calculated over a year’s time. If the manual checks are not accurate or consistent, the failure to meet compliance can “cost” many orders of magnitude more than the costs of the manual checking. With remote wireless monitoring, checks can be done as frequently, consistently, and accurately as desired. Most importantly, alerts and notifications can be generated automatically when specific conditions exist such that the situation can be addressed before it becomes non-compliant. Alerts and notifications can be as simple as an SMS or email.

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Simple Manual Monitoring that could be Remote Monitoring

Many applications that require manual monitoring today already have electrical equipment and/or sensors in place that can be converted simply and inexpensively to remote monitoring. For example, water levels are measured by sensors that provide a digital reading representing the current water level – this is recorded manually by a worker or volunteer who checks the reading every day (or more frequently when it is raining) and records the level in a log book. The person takes the log book and hands it to a clerk (or calls it in to a clerk, or sends via email, etc.) where the clerk enters it (hopefully accurately) into a spreadsheet or perhaps a corporate data system.   The spreadsheet or corporate system is then used by a manager or director to compile the reports that demonstrate that all of the items are being checked regularly to meet compliance, measurement, and/or other requirements. These types of checks are regularly done for other risks as well – liquid levels that may be too low/high, pressures that are too high/low, temperatures too high/low, timings too long/short, equipment that is on/off, and many others.

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Simple Connections to Inputs and Outputs

For most of the items being checked manually there is an electronic means of detecting the range of values that need to be reported and recorded. In some cases, the electronic “sensor” is as simple as a switch (similar to a switch in a toilet tank that turns off the water when the tank is full – we count on these every day!). Similar, but more complex switches may have multiple “positions” that change based on the level of fill. Even more complex switches generate electrical signals that vary within the range of things they are measuring. Many sensors do not directly display the measurements in a human readable form, but instead provide electrical information proportional to the thing being measured. Other sensors have simple indicators (red/green), digital displays, or even more sophisticated interfaces. For sensors that provide digital or analog outputs, connecting them to Cellio is simple and inexpensive. Cellio provides screw terminals where the wires from the sensor(s) can be directly connected into the Cellio Transceiver and the readings collected and transmitted as frequently as desired.

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Simple Alerts and Notifications

Based on collected data, whether from other cloud services or from sensor readings, alert and notification (SMS, email, HTTP posting, etc.) conditions can be set to notify any and all personnel who need to receive notifications in whatever means they need to be notified. In the case noted above, assuming that a “high water mark” was detected, Cellio would have reported the reading or sent a triggered report through the network to the back-end where it would have been evaluated against the set criteria and the relevant alerts/notifications/messages would have been sent to designated people, processes, and possibly other data systems to notify them of the measurement and “out of bounds” condition.   If the water level were to rise even higher and another level was measured that indicated an “emergency level”, that measured level would also be sent or would have generated a triggered report that might set off a different set of notifications, to a different set of people, processes, or data systems to deal with the new condition. Similarly, if the water to fall below the high water mark, a new alert might be sent to “call off” the alert condition and return the status to “normal”. All of the conditions, alerts, notifications, and integrations are configurable through Cellio.

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Bonus: As Much Complexity as You Need

Cellio’s integrated connectivity and back-end services provide all the tools necessary to view the collected data via graphs, tables, summary data, calculated values, estimates, analytics, and even sending and receiving data to enterprise systems or other cloud data services. These capabilities make the evolution from simple alerts and notifications to highly sophisticated analytics, forecasting, and integration to larger enterprise systems inexpensive and relatively easy. You choose the complexity that you want when you want.

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Conclusion

The Cellio Wireless Network has been designed to be as quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and easy to put in place today. There is a saying that you should “Inspect what you expect”. The rules around notifications and alerts are something that should be considered intentionally and deliberately. Who gets the notifications, how they get them, how frequently they get them, and what they are supposed to do in response to getting them will have a profound impact on the value of receiving them- implementing these decisions is where Cellio really shines.

At the simplest level, we have had customers get an IIoT system from sensors to alerts/notifications set up in less than half a day.

Overview

When considering the most cost effective way to monitor/control the greatest number of sensors/controllers while spending the least on CAPEX and OPEX, a couple of approaches can be considered.

On one end of the spectrum, you might consider installing stand-alone devices on every asset to be monitored or controlled. Every device will likely need to have similar capabilities to all the other devices and they will all either report through each other (a bandwidth, latency, and battery killer), or to a single point (typically requiring a sizable transmission range), or completely on their own (usually the more expensive CAPEX and OPEX option).

On the other end of the spectrum is a more distributed approach where a few hardware devices are connected to all of the sensors and controllers. The sensors and controllers share these “edge” hardware resources to then report back into a single point that has the more expensive communication components required for connecting to an external network (cellular, Wi-Fi, etc.). This distributed approach with its hierarchy of specialized devices can minimize the per sensor/controller connection costs while maximizing battery life, range, and scalable deployment.

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Caption: Cellio Transceivers and Gateways help to minimize TCO in IIoT.

 

 

Single Gateway Serves 10’s, 100’s, 1000’s of Transceivers

A central point of savings across a deployed network of sensors and controllers is having them communicate to a single (or a very small number) of more capable devices. This minimizes the more expensive CAPEX elements (cellular and wi-fi components) and OPEX elements (cellular and wi-fi access and data charges). Cellio Transceivers up to a mile away can share a single Gateway and the Gateway can take care of the cellular connection (meaning one cellular activation and as little data transmitted as necessary). With a radius of one mile, one Gateway could serve up to 3 square miles (enough to cover most campus, facilities, etc.).

cellio_tco_2

Caption: A single Cellio Gateway serving many Transceivers – serving all the sensors and controllers.

 

 

Single Transceiver Serves up to 16 Direct IO

In some applications there are assets that have multiple sensors from which to collect data as well as resources that can be used for signaling or control (an example might be a refrigeration unit that can tell multiple zones of temperature and humidity, current and voltage usage, and perhaps an overflow detector while also allowing for control of temperature setting, remote on/off, lighting, and other parameters).

In other applications there are many assets in and around each other and they may all need to be monitored or controlled (an example might be gas cylinders and pressure monitoring of each).

The Cellio Transceivers support connecting sensors, indicators, controllers by making 16 IO points available to connect analog and digital input signals and digital output signals.

cellio_tco_3

Caption: A single Transceiver can be connected to up to 16 inputs/outputs making the CAPEX for connecting to many sensors/controllers very inexpensive.

 

 

Minimal Overhead Minimizes Data Charges While Maximizing Throughput

By leveraging the design of the Transceivers to transmit and receive as little data as necessary to and from the Gateway, the Gateway is able to transmit and receive as little data as necessary through the cellular or wi-fi network(s). With IIoT and M2M plans typically charging on a per kB/MB basis, minimizing the data and the overhead for transmitting the data through the various sessions made by Gateway devices throughout the day can reduce overall data transmissions on a monthly basis to 10’s of kilobytes. This translates into significant savings in OPEX – especially when 100,000’s or millions of deployed remote sensors and controllers are contemplated. The additional benefit is reduced requirements in back-end (or cloud based) data storage, data hosting, data analytics, and data dashboarding resources required to make the most of the data collected and monitored.

 

 

Bonus: Installing and Scaling additional Transceivers and Gateways

As noted above, a single Gateway device can support many Transceiver devices supporting many sensors/controllers. Once a Gateway is installed, it is very easy and inexpensive to add additional Transceivers (and additional Gateways as desired).   Thus, as additional environmental parameters need to be monitored or additional devices need to be controlled they can be connected to existing Transceiver devices or additional Transceiver devices can be added quickly and easily – leveraging the installed Gateways.

 

 

Conclusion

The Cellio Wireless Network has been designed to be as quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tablets, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and easy to put in place today. We know that getting IIoT/M2M/IoT solutions successfully designed/implemented/running from scratch can be tough if you try to do it alone – that is why we have assembled all the pieces you need with Cellio. If your priority is minimizing total cost of ownership (TCO – installation, configuration, capital expenses, operational expenses, and ongoing support and maintenance) – make sure you include Cellio in your evaluations, you’ll be pleasantly surprised.

cellio_tco_5

 

Overview

Quite likely, the simplest and most useful device we can control is the ubiquitous Light Emitting Diode (LED). When it comes to simplicity, low cost, and effective ways to communicate information, the humble LED can always be counted on to convert a simple digital output into light. If some clever methods are used, the LED can be used to blink various codes and instructions that can then be used by human operators or to communicate with sophisticated equipment and programs. When an LED is combined with a Cellio Transceiver and a Cellio Gateway, you have the makings for a highly efficient, effective, and distributed IIoT system that can be used reliably to get information from the back-end and into the physical world.cellio_control_LED1

Caption: Cellio plus a simple LED provides a rapid means of communicating with users to signal conditions and control devices from the back-end.

 

Integrating the LED

In a very simple example, an LED is connected to one of the digital outputs of the Transceiver. The back-end datahosting/Dashboarding communicates with the Gateway over CDMA, GSM, or Wi-Fi. The Gateway then communicates with the Transceiver using LoRa (up to a mile away).

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Caption: Cellio and an LED makes for a powerful combination that can be used in a vast array of applications.

This simple set of connections can enable the following applications and many more:

  • Notifying a user which container is full/empty
  • Signaling for assistance/service
  • Isolated signal to communicate optically with other equipment
  • Confirming information that some action had been performed
  • Notifying users that resource is on/off duty
  • Functioning as an Industrial Light or Flashlight
  • And many more

cellio_control_LED3

Caption: Information coming from back-end data analytics is used to generate location based error conditions to signal users in the field.

 

Conclusion

The Cellio Wireless Network has been designed to be as quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tables, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and easy to put in place today. We know that getting IIoT/M2M/IoT solutions successfully designed/implemented/running from scratch can be tough if you try to do it alone – that is why we have assembled all the pieces you need with Cellio. When in doubt, you can always start with a simple LED. We want to make sure you are successful the first time.

cellio_control_LED4

Caption: The flow from the back-end through the Gateway, Transceiver, to the LED, and ultimately to the end User.

 

 

Overview

Often overlooked, the simplest and smartest sensor that we have access to that generates the fewest false positives and the fewest false negatives is … the unassuming pushbutton. In our attempts to automate most everything, the humble pushbutton is typically ignored as a proven elegant, inexpensive, reliable, and practical answer to signaling when something needs attention. Combine the simple pushbutton with a Cellio Transceiver and a Cellio Gateway (that has GPS in it), and you have the makings for a highly efficient, effective, and distributed IIoT system that can be used reliably to get information to the back-end and into dashboards for use with visualization, planning, notifications, and alerts.cellio_pushbutton_1Caption: A simple pushbutton plus Cellio provides a rapid means of empowering users to signal conditions to the back-end.

 

Integrating the Pushbutton Sensor

In this simple example, the pushbutton is connected one of the digital inputs of the Transceiver. The Transceiver communicates with the Gateway using LoRa (up to a mile away). The Gateway communicates with the network over CDMA, GSM, or Wi-Fi.

cellio_pushbutton_2

Caption: A pushbutton, Cellio, and GPS/Location information makes for a powerful combination that can be used in a vast array of applications.

This simple set of connections can enable the following applications and many more:

  • Notifying that a container is full/empty
  • Turning on/off a remote light
  • Signaling for assistance/service
  • Starting/stopping a process
  • Acknowledging that some action had been performed
  • Confirming physical inspection of an asset
  • Locating a specific asset on a map
  • Notifying a central system that an resource is on/off duty
  • Counting specific events of interest
  • Functioning as an Industrial doorbell
  • And many more

cellio_pushbutton_3

Caption: Information coming in from pushbutton presses and associated location information can generate powerful and useful dashboards.

With the Gateway providing its location either in the transmission or as part of the back-end data mapping, any and all pushbutton presses can be used to highlight assets on a map, making the following possible:

  • Optimized Routing
  • Service Planning
  • Supply Chain Management
  • Forecasting/Trending
  • Resource Allocation
  • Adaptive Equipment Configuration
  • And many more

cellio_pushbutton_4Caption: The flow from the pushbutton through the Transceiver, Gateway, Data Hosting, Data Visualization, and ultimately through Analytics to the end User.

 

Conclusion

The Cellio Wireless Network has been designed to be as quick, affordable, and high quality. Cellio Wireless Transceivers allow the Cellio system and customers to quickly and easily expand existing systems with as many sensors and controllers as they like (with minimal incremental expense).  The data collected in the back-end data system can be easily and rapidly mapped and provided for view on PC’s, tables, smartphones, etc. both via browser views as well as automatically generated native mobile app views. Sharing and modifying the dashboard views is quick and easy. All of this is available and easy to put in place today. We know that getting IIoT/M2M/IoT solutions successfully designed/implemented/running from scratch can be tough if you try to do it alone – that is why we have assembled all the pieces you need with Cellio. When in doubt, you can always start with the simple pushbutton or switch. We want to make sure you are successful the first time.