Solutions
Here are key sectors and applications where our advanced InaMesh technology can be effectively implemented to provide scalable, reliable, and cost-efficient connectivity solutions.
WildFires Prevention
10 000 km2
Extensive coverage
1-60 minutes
Extremely early wildfire detection
Up to 4 years
Autonomous work
1000 s
Nodes network
What's in the result?
The network can can cover hundred kilometers extremely large areas
Low power consumption, autonomous operation for several years without power source replacement
Real-time” provision of critical parameters - temperature, humidity, and CO2 for early detection and intervention
Seamless integration with existing wildfire management systems and customizable to meet specific needs and requirements
Extreamly early wildfire detection and enhanced effectiveness
Cost and Energy Efficiency Advantages Over Conventional Methods
How does it work?
Hardware units, deployed via helicopters or drones for sensing CO2, temperature, and humidity changes, parameters are customized
Know-how data transfer protocol - a groundbreaking solution for long-distance data transmission requiring minimal infrastructure investments. With just 1–2 gateways, you can effortlessly transfer data across hundreds of kilometres.
Integrated Software system for timely notifications to fire security department, enabling swift intervention to suppress fires at early stages
Why do we need an effective wildfires detection system?
Over 65,000
wildfires last year
Destroyed more than
11 million hectares of forest
Wildfire damages cost up to
$200 billion yearly
Increasing wildfires devastate lives and property
Traditional methods for preventing wildfires fall short
The lack of timely signals hampers the effective detection and prevention of wildfires
Smart lighting
-
6 100 km highway E80km
-
Street lights every 50 m
-
122 000 pcs fixture
1-2 gateways
to control
1000 s
streetlights
No huge
investments
300 times less price
for connectivity
Typical challenges related to lighting management
Inability to detect a broken or flickering fixture on the highway or in the city remotely
Expenses for dedicated team management and ticket processing
High cost of a connection system with the use of GSM-connection
What's in the result?
Significant operational and connectivity costs reduction
Monitoring the quality of work and the state of the network
Own an independent data network without extra expenses
Top-level ticketing and network monitoring system
Your city is one of the first to use next-gen technology building n-hops mesh networks
Better lighting quality and less energy consumption
Small maintenance time
Solar Fields
No scale limitations:
30km x 30km and more
30km x 30km and more
No internet needed
to operate
to operate
Automated field
force management
force management
Remote Solar Fields Monitoring Challenges
Undetected solar panel downtime - $100,000 in annual losses for a 10 MW solar farm
Efficiency loss due to dust & debris - 30% month, potentially losing $3,000 per MW in energy revenue
Inability to pinpoint panel faults' locations escalates maintenance costs and energy losses - 5-10% annual loss
What Benefits do Companies Receive
Operational Savings (OPEX) - no connectivity costs, reducing operational expenses and manual monitoring needs.
Capital Efficiency (CAPEX) - zero infrastructure investment, extending panel lifespan and minimizing upgrade costs.
Maximum fast detection and predictive maintenance - AI use for predictive maintenance, enabling maximum fast detection of issues before they escalate, preventing costly unplanned downtime and ensuring rapid response to maintain operational efficiency.
Operational efficiency - ensures peak panel performance, boosting energy production and revenue with existing assets.
How InaMesh differs from
traditional monitoring methods
Smart meters reading
How does it work
Hardware units – ISA readers
An affordable solution for collecting data from any type meters in real-time
Data transfer protocol - Groundbreaking solution for long-distance data transmission requiring minimal infrastructure investments. With just 1-2 gateways, you can effortlessly transfer data across the city.
Integrated software system - An AI-driven system recognizes, processes and stores data received from metering devices in the database.
1
Reads information
The ISA device is mounted on the meters reader. The device is registered and configured in the program (web application) using a chatbot
2
Sends to the server
Meter readings are photographed and transmitted to the Server without the need for the controller-person to be present at the facility
3
Processes data
The readings received from metering devices are recognized and stored in the database
What's in the result
Reliable system for monitoring and collecting readings from all types of meters in one database (water, heat, electricity, gas)
Monitoring trends and anomalies in consumption - tracking resource consumption trends and warning the system about abnormal resource consumption
Independently transmitting the readings taken at one time via mesh network to the server
Capable of detecting unauthorized access to the switchboard or control cabinet, as well as monitoring temperature extremes such as overheating or fire
The potential for remote shutdown of the consumer
Typical challenges with meter readings tracking
Price & Time
- Time consuming and Expensive reading process
- Each of the 1000+ must be processed manually
Inaccurate Billing
Impossible to take readings from all meaters at the same time
Location access restrictions
Lack of regular access to meters for reading