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Efento Cloud - online monitoring of physical values with NB-IoT wireless sensors

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Piotr Szydlowski

Efento Cloud is a platform for monitoring physical values with NB-IoT wireless sensors. It gathers data from sensors, stores it, and processes the data. Users can access the data through a web browser to view reports, graphs, and tables. The platform also allows users to set thresholds for parameters and receive SMS or email alerts if thresholds are exceeded. Efento Cloud provides a scalable and cost-effective solution for monitoring dispersed facilities.

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EFENTO CLOUD Monitoring of physical values with NB-IoT wireless sensors www.getefento.com
Contents About the system Efento Cloud platform Efento NB-IoT sensors
● Efento Cloud is a server platform gathering, storing, and processing data from Efento sensors ● The platform is ideal for dispersed facilities or any facilities requiring monitoring of parameters in many points, such as pharmaceutical wholesalers, cold stores, warehouses ● The data can be sent to the platform from any location, and the user can access it via a web browser ● The platform allows users to view the data, generate reports from any period of time and get SMS / email notifications in case a parameter exceeds safe value Efento Cloud Efento Cloud is a system for physical values monitoring, with SMS / email notifications and with remote access to the measurement data and reports
Key features Efento Cloud supports all functions necessary for effective and convenient control of environmental conditions in dispersed locations/facilities SMS / EMAIL NOTIFICATIONS & ALERTS Once temperature / humidity / pressure threshold is exceeded, user is notified by SMS / email message AUTOMATIC REPORTS Measurement data can be sent to any email address in the form of a PDF or CSV report. The frequency of reporting is adjustable. PRESENTATION OF DATA Measurement data from any period of time can be presented in a clear form of graphs or tables SCHEME OF LOCATIONS The platform enables mapping the structure of any organization in the form of a tree and assigning individual sensors to its branches DIFFERENT LEVELS OF ACCESS RIGHTS Access rights for different users can be limited both in terms of privileges and areas/locations FACILITY LAYOUT / MAP Each location can be shown in the form of a floor plan / map with the deployment of sensors
How it works? The system consists of Efento wireless sensors and Efento Cloud platform which receives and proceeds all the data NB-IoT sensors measure temperature, humidity, differential pressure, barometric pressure, device state and send the data to Efento Cloud The measurement data can be sent to Efento Cloud simultaneously from many facilities / locations, even hundreds kilometers away one from another All the data goes to safe Efento Cloud platform that stores and process it The users of the system have access to the data from anywhere in the world via web browsers - on computers or smartphones / tablets If a monitored parameter is exceeded, user is alerted by SMS or email EFENTO CLOUD PLATFORM NB IoT SENSORS ACCESS TO DATA, REPORTS SMS / E-MAIL NOTIFICATIONS
Why Efento Cloud? Efento Cloud is a convenient, easy to configure, scalable and cost-effective solution ACCESS FROM ANYWHERE IN THE WORLD Users log in to the platform via web browsers, no additional software needed CLOUD PLATFORM Software updating and maintenance is provided by the manufacturer for one-time license fee. There is no subscription fee! UNLIMITED NUMBER OF USERS Any number of users can access sensors’ data, you can assign specific access rights to each of them SCALABILITY The data can come to the platform from any number of facilities, no matter whether it is 10 or 1000. The configuration is always the same LOW IMPLEMENTATION COSTS Wireless communication technology reduces the installation cost and the cloud platform minimizes implementation and maintenance costs EASY CONFIGURATION AND OPERATION The system has been designed so that it can be configured and used by anyone. The configuration takes max 15 minutes
Why NB-IoT sensors? NB-IoT allows battery powered sensors to send the data using GSM network and operate for years Low cost Easy deployment Long battery lifetime Reliability Convenient to use NB-IoT sensors send the data over GSM network and do not need any wires or gateways. User only needs to place a sensor in a place he wants to monitor and register it on Efento Cloud NB-IoT devices and connectivity are cheaper compared to other solutions. On top of that user doesn’t need to maintain any additional devices - network is maintained by a GSM operator Operators provide very high SLA for NB-IoT networks. Sensor have built in memory, so even in unlikely case of network downtime, they will resend the missing measurements to Efento Cloud Efento Sensors can operate for years on batteries. For instance sensor which measures every 5 minutes will operate on batteries for 4 years. Quick deployment, no wires, easy configuration and use of Efento Cloud and long battery lifetime make Efento NB-IoT sensors one of the most convenient monitoring solutions in the market
Contents About the system Efento Cloud platform Efento NB-IoT sensors
Dashboard All the most important information in one place
The list contains sensors with current measurements, status and information about exceeded alarm thresholds Sensors can be grouped in any way e.g. by assignment to a location Filters allow users to sort sensors depending on their status (normal, lost, alarm, low battery, switched off) and to mark “favorite” ones
The range of information from the dashboard can be displayed on the map / floor plan. The sensors can be freely positioned on the map /plan. The status of each sensor is shown by a suitable icon For each location, the user can assign a different map After moving the cursor onto a selected sensor, additional information is shown
The measurement data can be presented in the form of a graph that can be freely enlarged The data can be presented on a daily, weekly, monthly or yearly basis
The measurement data can also be presented as a table The table shows data on a daily basis, the information from other periods is available in the form of pdf / csv reports
Settings Configuring sensors
Group edition of sensors enables convenient and quick change of their settings and activation / deactivation Ability to create any structure (e.g. on geographical or functional basis) New devices appear on the list of new sensors, they can be named and moved to any location The table displays all sensors, the user can edit their settings, and enable SMS / email alerts
Each sensor can be named and assigned to a location The list contains all alarm rules assigned to selected sensor
Alarm rules Setting thresholds of the environmental parameters measured and establishing recipients of SMS / email alerts
The user can create any number of alarm rules. When an alarm occurs, the system can send email or SMS notification to any recipient The alarm can be triggered by exceeding a threshold, loss of communication with the sensor or low battery
An alarm can automatically generate SMS or email notifications sent to any recipients. The number of the recipients of the alert is not limited. Physical parameter subjected to an alarm rule with a threshold (e.g. air humidity above 35% RH) Selection of sensors subjected to the rule
Reports Manual and automatic export of measurement data in PDF and CSV formats
The user can generate the report in csv or pdf format The report can cover any period of time and contain measurements, information on alarms and technical data (e.g. low battery messages) To generate a report, the user should choose the sensor(s). The report can cover any number of sensors, e.g. the entire group of sensors located in Krakow. It is also possible to configure automatic reports that will be sent by email e.g. once a day or once a week
Chart with values and boundaries marked Sensor name, serial number, time period of the report Information about person who generated the report and time when it has been generated Statistical values, including min and max values, mean value, standard deviation and mean kinetic temperature Information about boundaries and exceedances
Some types of event may have additional information - e.g. for rules violation - name of the person who noticed and confirmed it Type of the event may include information about rules violations, low battery or problem with sensor connectivity Timestamp of the event
Values measured by sensor along with information on events Sensor name, serial number, time period of the report Information about person who generated the report and time when it has been generated Statistical values, including min and max values, mean value Information about boundaries and exceedances
Access rights management Determining access rights to selected locations and permission levels
The administrator (Admin) can manage all user accounts in the system Any user can get access to selected locations at one of three permission levels. The user of administrator account can configure the system (e.g. formulate alarm rules, assign sensors to users in a given location, add new users), manager account gives access to the data and the ability to change some settings (e.g. alarm rules, sensor configuration, automatic reports), and analyst account gives access to the data without ability to change any settings.
Any user can get access to selected locations at one of three permission levels. The user of administrator account can configure the system (e.g. formulate alarm rules, assign sensors to users in a given location, add new users), manager account gives access to the data and the ability to change some settings (e.g. alarm rules, sensor configuration, automatic reports), and analyst account gives access to the data without ability to change any settings. New user is registered in the system by the Admin by entering personal data, user name, password and email address
System logs Registration of changes in system settings and alarm history
System logs record all changes and events in the system, such as adding new users, changing sensor configuration, changing report formats, alarms on exceeding thresholds Additionally, the logs include information on the user who has made a change and on the time of the change
Contents About the system Efento Cloud platform Efento NB-IoT sensors
Efento NB-IoT sensors types Temperature, humidity, air pressure ● Range: -35° to 70°C / 0 to 99% RH / 330 - 1100 hPa ● Accuracy: +/- 0.4 °C in -20 °C to +70 °C range and +/- 0.5°C in -35 to -20 °C range / 4% in 0 to 80% RH, 7% in 81 to 99% RH / 3 hPa ● Resolution: 0.1°C / 1% RH / 1 hPa Temperature (external probe) ● Range: -55° to 120°C ● Accuracy: +/- 0.5 °C in -10 °C to +85 °C range and +/- 2°C in -55 °C to -10 °C and +85 °C to 125 °C range ● Resolution: 0.1°C Temperature and humidity ● Range: -35° to 70°C / 0 to 99% RH ● Accuracy: +/- 0.4 °C in -20 °C to +70 °C range and +/- 0.5°C in -35 to -20 ° C range / 4% in 0 to 80% RH, 7% in 81 to 99% RH ● Resolution: 0.1°C / 1% RH Temperature ● Range: -35 ° to 70 °C ● Accuracy: +/- 0,4 ° C in -20 °C to + 70 °C range and +/- 0,5 °C in -35 to -20 °C range ● Accuracy: 0,1 ° C I / O ● Sensor detects change of state ● Works with both NO / NC types of inputs Differential pressure ● Range: -500 Pa do +500 Pa ● Accuracy: +/- 1 Pa ● Resolution: 1 Pa
NB-IoT Efento sensors technical specifications Battery ● Battery: 2 x 3,6 V, AA size, capacity 5 200 mAh (replaceable) ● Battery operation time: min. 4 years (measurement period 5 minutes) Mechanical ● Dimensions: 27 x 71 x 71 mm ● Weight: 105 g (including batteries) ● Enclosure: plastic ABS, color white ● Enclosure IP rating: IP30, IP42 with a dedicated silicone cover Environmental ● Operating ○ Temperature: -35° to 70°C ○ Humidity: 0 to 99% non-condensing ● Storage and transportation ○ Temperature: -40° to 70°C Software applications ● Efento Cloud ● Efento Logger ● Third party IoT platforms Measurements ● Memory size: 65 000 measurements ● Measurement interval: 1 second to 10 days, configurable NB-IoT interface ● NB-IoT band: ○ Band 8: UL 880 MHz - 915 MHz, DL 925 MHz - 960 MHz, Duplex mode HD-FDD ○ Band 20: UL 832 MHz - 862 MHz, DL 791 MHz - 821 MHz, Duplex mode HD-FDD ● 3GPP: Release 13 ● Power: 20 dBm ● SIM Card: 3FF (Micro SIM) or eSIM ● Transmission interval: configurable (30 min to 10 days) or dependable on measurement interval Bluetooth Low Energy interface ● Communication: Bluetooth Low Energy (BLE) ● Radio module frequency: 2,4 GHz ● Power: 2,5 mW (4 dBm) ● Range: up to 100 m (LOS) ● Transmision period: 1 s
+48 574 753 980 efento@getefento.com http://getefento.com/product/efento-cloud/

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Efento Cloud - online monitoring of physical values with NB-IoT wireless sensors

  • 1. EFENTO CLOUD Monitoring of physical values with NB-IoT wireless sensors www.getefento.com
  • 2. Contents About the system Efento Cloud platform Efento NB-IoT sensors
  • 3. ● Efento Cloud is a server platform gathering, storing, and processing data from Efento sensors ● The platform is ideal for dispersed facilities or any facilities requiring monitoring of parameters in many points, such as pharmaceutical wholesalers, cold stores, warehouses ● The data can be sent to the platform from any location, and the user can access it via a web browser ● The platform allows users to view the data, generate reports from any period of time and get SMS / email notifications in case a parameter exceeds safe value Efento Cloud Efento Cloud is a system for physical values monitoring, with SMS / email notifications and with remote access to the measurement data and reports
  • 4. Key features Efento Cloud supports all functions necessary for effective and convenient control of environmental conditions in dispersed locations/facilities SMS / EMAIL NOTIFICATIONS & ALERTS Once temperature / humidity / pressure threshold is exceeded, user is notified by SMS / email message AUTOMATIC REPORTS Measurement data can be sent to any email address in the form of a PDF or CSV report. The frequency of reporting is adjustable. PRESENTATION OF DATA Measurement data from any period of time can be presented in a clear form of graphs or tables SCHEME OF LOCATIONS The platform enables mapping the structure of any organization in the form of a tree and assigning individual sensors to its branches DIFFERENT LEVELS OF ACCESS RIGHTS Access rights for different users can be limited both in terms of privileges and areas/locations FACILITY LAYOUT / MAP Each location can be shown in the form of a floor plan / map with the deployment of sensors
  • 5. How it works? The system consists of Efento wireless sensors and Efento Cloud platform which receives and proceeds all the data NB-IoT sensors measure temperature, humidity, differential pressure, barometric pressure, device state and send the data to Efento Cloud The measurement data can be sent to Efento Cloud simultaneously from many facilities / locations, even hundreds kilometers away one from another All the data goes to safe Efento Cloud platform that stores and process it The users of the system have access to the data from anywhere in the world via web browsers - on computers or smartphones / tablets If a monitored parameter is exceeded, user is alerted by SMS or email EFENTO CLOUD PLATFORM NB IoT SENSORS ACCESS TO DATA, REPORTS SMS / E-MAIL NOTIFICATIONS
  • 6. Why Efento Cloud? Efento Cloud is a convenient, easy to configure, scalable and cost-effective solution ACCESS FROM ANYWHERE IN THE WORLD Users log in to the platform via web browsers, no additional software needed CLOUD PLATFORM Software updating and maintenance is provided by the manufacturer for one-time license fee. There is no subscription fee! UNLIMITED NUMBER OF USERS Any number of users can access sensors’ data, you can assign specific access rights to each of them SCALABILITY The data can come to the platform from any number of facilities, no matter whether it is 10 or 1000. The configuration is always the same LOW IMPLEMENTATION COSTS Wireless communication technology reduces the installation cost and the cloud platform minimizes implementation and maintenance costs EASY CONFIGURATION AND OPERATION The system has been designed so that it can be configured and used by anyone. The configuration takes max 15 minutes
  • 7. Why NB-IoT sensors? NB-IoT allows battery powered sensors to send the data using GSM network and operate for years Low cost Easy deployment Long battery lifetime Reliability Convenient to use NB-IoT sensors send the data over GSM network and do not need any wires or gateways. User only needs to place a sensor in a place he wants to monitor and register it on Efento Cloud NB-IoT devices and connectivity are cheaper compared to other solutions. On top of that user doesn’t need to maintain any additional devices - network is maintained by a GSM operator Operators provide very high SLA for NB-IoT networks. Sensor have built in memory, so even in unlikely case of network downtime, they will resend the missing measurements to Efento Cloud Efento Sensors can operate for years on batteries. For instance sensor which measures every 5 minutes will operate on batteries for 4 years. Quick deployment, no wires, easy configuration and use of Efento Cloud and long battery lifetime make Efento NB-IoT sensors one of the most convenient monitoring solutions in the market
  • 8. Contents About the system Efento Cloud platform Efento NB-IoT sensors
  • 9. Dashboard All the most important information in one place
  • 10. The list contains sensors with current measurements, status and information about exceeded alarm thresholds Sensors can be grouped in any way e.g. by assignment to a location Filters allow users to sort sensors depending on their status (normal, lost, alarm, low battery, switched off) and to mark “favorite” ones
  • 11. The range of information from the dashboard can be displayed on the map / floor plan. The sensors can be freely positioned on the map /plan. The status of each sensor is shown by a suitable icon For each location, the user can assign a different map After moving the cursor onto a selected sensor, additional information is shown
  • 12. The measurement data can be presented in the form of a graph that can be freely enlarged The data can be presented on a daily, weekly, monthly or yearly basis
  • 13. The measurement data can also be presented as a table The table shows data on a daily basis, the information from other periods is available in the form of pdf / csv reports
  • 15. Group edition of sensors enables convenient and quick change of their settings and activation / deactivation Ability to create any structure (e.g. on geographical or functional basis) New devices appear on the list of new sensors, they can be named and moved to any location The table displays all sensors, the user can edit their settings, and enable SMS / email alerts
  • 16. Each sensor can be named and assigned to a location The list contains all alarm rules assigned to selected sensor
  • 17. Alarm rules Setting thresholds of the environmental parameters measured and establishing recipients of SMS / email alerts
  • 18. The user can create any number of alarm rules. When an alarm occurs, the system can send email or SMS notification to any recipient The alarm can be triggered by exceeding a threshold, loss of communication with the sensor or low battery
  • 19. An alarm can automatically generate SMS or email notifications sent to any recipients. The number of the recipients of the alert is not limited. Physical parameter subjected to an alarm rule with a threshold (e.g. air humidity above 35% RH) Selection of sensors subjected to the rule
  • 20. Reports Manual and automatic export of measurement data in PDF and CSV formats
  • 21. The user can generate the report in csv or pdf format The report can cover any period of time and contain measurements, information on alarms and technical data (e.g. low battery messages) To generate a report, the user should choose the sensor(s). The report can cover any number of sensors, e.g. the entire group of sensors located in Krakow. It is also possible to configure automatic reports that will be sent by email e.g. once a day or once a week
  • 22. Chart with values and boundaries marked Sensor name, serial number, time period of the report Information about person who generated the report and time when it has been generated Statistical values, including min and max values, mean value, standard deviation and mean kinetic temperature Information about boundaries and exceedances
  • 23. Some types of event may have additional information - e.g. for rules violation - name of the person who noticed and confirmed it Type of the event may include information about rules violations, low battery or problem with sensor connectivity Timestamp of the event
  • 24. Values measured by sensor along with information on events Sensor name, serial number, time period of the report Information about person who generated the report and time when it has been generated Statistical values, including min and max values, mean value Information about boundaries and exceedances
  • 25. Access rights management Determining access rights to selected locations and permission levels
  • 26. The administrator (Admin) can manage all user accounts in the system Any user can get access to selected locations at one of three permission levels. The user of administrator account can configure the system (e.g. formulate alarm rules, assign sensors to users in a given location, add new users), manager account gives access to the data and the ability to change some settings (e.g. alarm rules, sensor configuration, automatic reports), and analyst account gives access to the data without ability to change any settings.
  • 27. Any user can get access to selected locations at one of three permission levels. The user of administrator account can configure the system (e.g. formulate alarm rules, assign sensors to users in a given location, add new users), manager account gives access to the data and the ability to change some settings (e.g. alarm rules, sensor configuration, automatic reports), and analyst account gives access to the data without ability to change any settings. New user is registered in the system by the Admin by entering personal data, user name, password and email address
  • 28. System logs Registration of changes in system settings and alarm history
  • 29. System logs record all changes and events in the system, such as adding new users, changing sensor configuration, changing report formats, alarms on exceeding thresholds Additionally, the logs include information on the user who has made a change and on the time of the change
  • 30. Contents About the system Efento Cloud platform Efento NB-IoT sensors
  • 31. Efento NB-IoT sensors types Temperature, humidity, air pressure ● Range: -35° to 70°C / 0 to 99% RH / 330 - 1100 hPa ● Accuracy: +/- 0.4 °C in -20 °C to +70 °C range and +/- 0.5°C in -35 to -20 °C range / 4% in 0 to 80% RH, 7% in 81 to 99% RH / 3 hPa ● Resolution: 0.1°C / 1% RH / 1 hPa Temperature (external probe) ● Range: -55° to 120°C ● Accuracy: +/- 0.5 °C in -10 °C to +85 °C range and +/- 2°C in -55 °C to -10 °C and +85 °C to 125 °C range ● Resolution: 0.1°C Temperature and humidity ● Range: -35° to 70°C / 0 to 99% RH ● Accuracy: +/- 0.4 °C in -20 °C to +70 °C range and +/- 0.5°C in -35 to -20 ° C range / 4% in 0 to 80% RH, 7% in 81 to 99% RH ● Resolution: 0.1°C / 1% RH Temperature ● Range: -35 ° to 70 °C ● Accuracy: +/- 0,4 ° C in -20 °C to + 70 °C range and +/- 0,5 °C in -35 to -20 °C range ● Accuracy: 0,1 ° C I / O ● Sensor detects change of state ● Works with both NO / NC types of inputs Differential pressure ● Range: -500 Pa do +500 Pa ● Accuracy: +/- 1 Pa ● Resolution: 1 Pa
  • 32. NB-IoT Efento sensors technical specifications Battery ● Battery: 2 x 3,6 V, AA size, capacity 5 200 mAh (replaceable) ● Battery operation time: min. 4 years (measurement period 5 minutes) Mechanical ● Dimensions: 27 x 71 x 71 mm ● Weight: 105 g (including batteries) ● Enclosure: plastic ABS, color white ● Enclosure IP rating: IP30, IP42 with a dedicated silicone cover Environmental ● Operating ○ Temperature: -35° to 70°C ○ Humidity: 0 to 99% non-condensing ● Storage and transportation ○ Temperature: -40° to 70°C Software applications ● Efento Cloud ● Efento Logger ● Third party IoT platforms Measurements ● Memory size: 65 000 measurements ● Measurement interval: 1 second to 10 days, configurable NB-IoT interface ● NB-IoT band: ○ Band 8: UL 880 MHz - 915 MHz, DL 925 MHz - 960 MHz, Duplex mode HD-FDD ○ Band 20: UL 832 MHz - 862 MHz, DL 791 MHz - 821 MHz, Duplex mode HD-FDD ● 3GPP: Release 13 ● Power: 20 dBm ● SIM Card: 3FF (Micro SIM) or eSIM ● Transmission interval: configurable (30 min to 10 days) or dependable on measurement interval Bluetooth Low Energy interface ● Communication: Bluetooth Low Energy (BLE) ● Radio module frequency: 2,4 GHz ● Power: 2,5 mW (4 dBm) ● Range: up to 100 m (LOS) ● Transmision period: 1 s
  • 33. +48 574 753 980 [email protected] http://getefento.com/product/efento-cloud/