
SmartCountr access management enables entry and exit control as well as measurement of visitor flows in high-traffic buildings and in the open environment. Powered by infinimesh.
SMARTCOUNTR

EFFECTIVE ENTRY CONTROL AND SECURE GUEST COUNTING WITH SMARTDISTANCR
With SmartDistancr, even complex entrance areas can be easily detected, regardless of the number or width of access points. Even with individual inputs and outputs in complex spatial conditions, SmartDistancr delivers reliable results.
The real-time counting system from SmartDistancr, which is GDPR-compliant and visualized by means of a traffic light system, ensures secure guest counting in sports arenas. Configuration is simple and convenient via the Internet dashboard. Discover the versatile possibilities of SmartDistancr and optimize your entrance control and guest counting.
SMARTDISTANCR


SMARTCOUNTR models
3D scanners for different requirements
Entry and exit control system for door widths up to 1.60 meters. A 3D infrared sensor detects a narrow passageway area (0.5 meters) from above (suspension approx. 2.5 meters high) and works independently of light at any time of day or night.
The 3D “Time of Flight” sensor in the waterproof housing (IP65) uses AI (artificial intelligence) and optimized ML (machine learning) algorithms to distinguish between people and objects from the 3D matrix image.
On an internal RaspberryPi 4 board with an encrypted Linux operating system, the sensor’s counting information is processed and transmitted to the open source IoT platform “infinimesh” via an encrypted token system (256key).
The data format is data sparse and realized via MQTT 5 and JSON as a container.
The SoloCountr is equipped with PowerLAN on the network side and offers HDMI connections for signage monitors as well as a WLAN repeater function for supplying signage tablets. Freely configurable, the SoloCountr also works with GSM/NB IoT, LoraWAN,
LAN/WLAN networks. In the event of network failures, the sensor continues to count independently and transmits the count data as soon as the network connection is available again.
The SoloCountr is supplied with a 220 volt power input. A discrete, ring power supply must be ensured for the connection to the PowerLAN.
The SoloCountr has been designed according to the principles of “Security/Privacy by design” and thus follows the recommendations of the “Digital Agenda of the State of Saxony-Anhalt”.
Technical data
– Housing: Powder coated metal sheet
– Power consumption: 220 volts, 18 watts (10 watts power saving)
– Weight: 3.6 – 4 kilograms (special variants depending on network technology)
– Suspension: 2 – 2.70 meters height
– Sensor field: 0.5 x 1.6 meters maximum
– Dimensions: 70mm x 90mm x 800mm
– Operating temperature: (-20 to 55 degrees Celsius), Water resistant (IP65)
– Suspension: Global Truss System
Entry and exit control system for door widths up to 3.20 meters. Two 3D infrared sensors detect a narrow passageway area (0.5 meters) from above (suspension approx. 2.5 meters high) and work independently of light at any time of day or night.
The 3D “Time of Flight” sensor in the waterproof housing (IP65) uses AI (artificial intelligence) and optimized ML (machine learning) algorithms to distinguish between people and objects from the 3D matrix image.
On an internal RaspberryPi 4 board with an encrypted Linux operating system, the sensor’s counting information is processed and transmitted to the open source IoT platform infinimesh via an encrypted token system (256key).
The data format is data sparse and realized via MQTT 5 and JSON as a container.
The TwinCountr is equipped with PowerLAN on the network side and offers HDMI connections for signage monitors as well as a WLAN repeater function for supplying signage tablets. Freely configurable, the TwinCountr also works with GSM/NB IoT, LoraWAN,
LAN/WLAN networks. In the event of network failures, the sensor continues to count independently and transmits the count data as soon as the network connection is available again.
The TwinCountr is supplied with a 220 volt power input. A discrete, ring power supply must be ensured for the connection to the PowerLAN.
The TwinCountr has been designed according to the principles of “Security/Privacy by design” and thus follows the recommendations of the “Digital Agenda of the State of Saxony-Anhalt”.
Technical data
– Housing: Powder coated metal sheet
– Power consumption: 220 volts, 27 watts(16 watts power saving)
– Weight: 4 – 4.4 kilograms (special variants depending on network technology)
– Suspension: 2 – 2.70 meters height
– Sensor field: 0.5 x 3.2 meters maximum
– Dimensions: 70mm x 90mm x 1100mm
– Operating temperature: (-20 to 55 degrees Celsius), Water resistant (IP65)
– Suspension: Global Truss System
With the new SmartDistancr, it is now even possible to monitor an area of up to 40,000 sqm. The camera-based area scanner uses artificial intelligence (AI) via an encrypted token system.
The Smart Distancr is powered by an Arm processor on Raspi Board and a Tensor Flow Shield, is encrypted and does not send image information to the cloud. In offline mode, “constraints” and “spatial geometries” can be defined and organized into “devices”.
The camera has a range of 30 meters. The ML algorithms used also analyze the emotional states (happy/neutral/disappointed) in the immediate sensor field (2-4 meters). The SmartDistancr signals minimum distances to be maintained. The free integration of further ML algorithms can be realized by our experienced datascientists after consultation.
The SmartDistancr is equipped with WLAN on the network side. Freely configurable, the SmartDistancr also works with GSM networks and is powered by a 12-volt power supply. Because of the light weight, an adhesive connection is sufficient.
The SmartDistancr has been designed according to the principles of “security/privacy by design” and thus follows the recommendations of the “Digital Agenda of the State of Saxony-Anhalt”.
Technical data
– Housing: Powder coated metal sheet
– Power consumption: 12 volt power supply
– Weight: 400 gram
– Suspension: 2 – 2.50 meters height
– Scan distance: 30 meters
– Dimensions: 50mm x 80mm x 60mm
– Image resolution: 16 megapixels (interpolated)
– Exposure: Auto
– Viewing angle: 58 degrees
– Lens: f = 6.0 F =2.0
The “Global-Trust” mounting system is stable and quick to set up. Mounting takes place above the access to be monitored
As soon as power is supplied to the Solo or TwinCountr, the sensor sends motion data. Functional expansion with additional SmartCountr is possible at any time
with multiple inputs and outputs are freely configurable. Complex role management and scheduler even allow planning of events and access limits
with freely configurable threshold values for the colors (red, yellow, green)
with up-to-the-second documentation of inputs and outputs for each monitored room.
for all parameters. Manual traffic light control (remote) for controlling entrances, exits and flows of people
for the representation of the room geometry and audience flows.
optionally via monitors, tablets and smartphones (web interface). Various visualizations possible by means of colored LED systems
SMARTCOUNTR:Countless features
Accurately record visitor flows

SMARTCOUNTR IN THE SMART CITY
SmartCountr in practice: Because of the versatile plug-and-play combinations with other sensors that can be used, the system is the basis for modern smart city solutions.
SPARKASSEN EISDOM: LAUNCH WITH SMARTCOUNTR
Powerplay at the Sparkassen-Eisdom in Halle: With the digital solution from Infinite Devices, the Sparkassen-Eisdom is once again open for public skating according to the 3-G rule.
FREEDOM FOR STADIUMS AND POOLS
How can you safely measure visitor flows in pandemic times? We have developed the innovative “SmartCountr” access control system for this purpose, which is already being used successfully by many customers in Germany.
MAKING IOT AUDIBLE
“To date, little attention has been paid by the research community to the applications of internetofthings (IoT) in the field of interactive sonification to the shared control of the sound system by both the user performing gestures local to the system itself and by one or more remote users.”