Iotellect - Solution

Solution Group

Industry

Smart Manufacturing

Manufacturing

PoC Duration

Iotellect Match

2-10 days

AI powered Low Code IoT/IIoT Platform

Provide remote monitoring and service solution tailored to any vertical market. Enable real-time tracking, predictive maintenance, and remote diagnostics, reducing downtime and repair costs. Improve operational efficiency by minimizing the need for on-site inspections and facilitating faster troubleshooting. With automated alerts and data-driven insights, enhance equipment uptime, optimize energy use, and ensure safety in hazardous environments. Deploy a solution in-house or offer remote monitoring and service product for your OEM/ODM equipment by branding our white-label IoT platform.

Iotellect is a low code IoT/IIoT development platform. It does not work as an out-of-the-box solution or product. Instead, it helps you to monetize your IoT know-how by dramatically lowering labor costs and cutting time-to-market for your product, service, or solution. It allows business-oriented IoT professionals to join the development process by converting their IoT market knowledge directly into product features and specific value delivered to your end customers.

Build Your IoT Application

Connect Your

Devices

IoT/IIoT edge gateways

Industrial PCs and PLCs

GPS/GNSS vehicle trackers

Your OEM/ODM smart equipment

Third party connected machines

Field technician wearables and mobile devices

Site access control systems

Smart tools and service/repair assets

RFID / NFC / barcode readers

for inventory management

Connect Devices

Support for various communication protocols (e.g., MQTT, Modbus, SNMP, OPC-UA, BACnet) to interface with different types of equipment and sensors, ensuring compatibility across diverse systems and industries
Utilization of wireless technologies like Wi-Fi, 4G/5G, Bluetooth, Zigbee, and LoRaWAN for remote data transmission and control, reducing the need for physical cabling in hard-to-reach areas
Local data processing before transmitting it to the cloud or central system, reducing latency and bandwidth usage
Enabling of technicians to diagnose problems remotely, view logs, and run tests without needing to visit the site, speeding up the resolution process and reducing costs
Facilitation of remote configuration and over-the-air (OTA) firmware updates for connected devices, ensuring that systems are always running the latest software and security patches
Implementation of user access controls to ensure that only authorized personnel can monitor, configure, or manage specific devices, enhancing security and accountability
Continuous logging of data for historical analysis and reporting, providing insights into equipment performance trends, energy usage, and environmental factors

Connectivity and Management

Low code integration with Enterprise Resource Planning (ERP) systems
Low code integration with SCADA system
Low code integration with Manufacturing Execution Systems (MES)
Low code integration with Maintenance Management Systems (CMMS/EAM)
Low code integration with Data Analytics and Business Intelligence (BI) Tools

Integration

Automatic identification of outliers and trigger alerts when abnormalities occur, helping to detect faults before they escalate
Usage of machine learning and statistical models to predict potential equipment failures or maintenance needs based on historical data and usage patterns
Analysis of historical data to identify long-term trends in equipment performance, energy consumption, or environmental impact
Tracking of energy consumption and resource usage across equipment to identify inefficiencies
Analysis of data from past failures or malfunctions to determine the root cause of equipment issues
Identification of bottlenecks, inefficiencies, or areas where processes can be streamlined for better productivity
Tracking of performance and usage of assets throughout their lifecycle, providing insights into when equipment should be upgraded, replaced, or retired based on performance data and historical trends
Analysis of data related to the environmental conditions surrounding equipment, such as humidity, temperature, or pollution levels, and how they affect equipment performance
Evaluation of the financial impact of maintenance activities, energy use, and equipment efficiency, providing insights into the cost-effectiveness of operations

Analytics

Provision for visual summaries of equipment status, health, and performance through customizable dashboards
Availability of map-based interfaces for tracking the location of equipment, assets, or vehicles, with geofencing capabilities
Visualization of the geographic distribution of assets and monitor their movement or status in real-time
Direct interaction with equipment via the UI, adjusting settings, rebooting devices, or triggering actions (e.g., turning systems on or off) remotely
Monitoring of multiple sites or equipment clusters simultaneously through split-screen views or multi-site dashboards
Enabling of users to add, move, or remove widgets on their dashboard for easy access to specific monitoring tools, such as alarms, equipment metrics, and analytics graphs

UI/UX

Key Features
for Your Remote Equipment Monitoring and Service System

Customers and Partners

System Integrators
Original Device Manufacturers
Independent Software Vendors
Engineering Companies
Large Enterprises
Small and Medium Businesses

Solution Users and Developers

Dedicated low code developers
Maintenance engineers
Industrial automation specialists
Field service professionals
Infrastructure supervisors

Customer success team

Community

Online training

Remote Equipment Monitoring and Service