Iotellect - Energy Management System

Solution Group

Industry

Smart Grid

Energy and Utilities

PoC Duration

Iotellect Match

2-10 days

AI powered Low Code IoT/IIoT Platform

Reduce energy consumption and cut costs, enhance operational efficiency, support sustainability by lowering carbon emissions, ensure regulatory compliance, and improve equipment performance through fine-grained visibility and predictive maintenance, ultimately fostering a culture of energy conservation and stakeholder engagement.

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

Power Control and Monitoring Devices

Smart meters

IIoT gateways

Voltage regulators

Smart thermostats

HVAC controllers and systems

Smart lighting systems

Load controllers

Power quality analyzers

Solar inverters

Other renewable energy equipment

Battery storage systems

Surge protectors

Energy recovery systems

EV chargers

Connect Devices

Connectivity & Management

Support for most IT, industrial and IoT protocols (such as Modbus, BACnet, OPC UA, DNP3, MQTT, LonWorks, IEC 61850, KNX, ProfiNet, Zigbee, IEC 62056, M-Bus, WirelessHART, etc.)
Interfacing of renewable energy sources, management of energy flows and storage to optimize usage and reduce dependency on non-renewable energy
Connectivity of utility systems to participate in demand response programs, automatically adjusting loads in response to utility signals to optimize energy costs
Automatic adjustment of HVAC, lighting, and other systems based on occupancy, time of day, and other factors
Optimization of energy loads across various systems to avoid peak demand charges and reduce overall energy costs

Integration

Low code integration with smart grid management systems
Low code integration with smart metering solutions
Low code integration with Enterprise Resource Planning (ERP) systems
Low code integration with Building Management Systems (BMS) for holistic building control
Low code integration with HVAC systems
Low code integration with SCADA systems
Low code integration with industrial automation systems
Low code integration with renewable energy systems
Low code integration with Facility Management Systems (FMS)
Low code integration with Demand Response Management Systems (DRMS)
Low code integration with environmental monitoring systems

Analytics

Displaying of real-time energy usage data through dashboards and visualizations, allowing immediate identification of consumption patterns and anomalies
Analysis of historical and current energy consumption to identify trends, inefficiencies, and areas for improvement
Usage of machine learning and algorithms to forecast future energy usage, equipment failures, and maintenance needs, enabling proactive measures
Comparing of energy performance against industry standards, historical data, or similar facilities to identify areas where improvements can be made
Calculation of greenhouse gas emissions based on energy consumption data, helping organizations track and reduce their carbon footprint
Automatic detection of unusual energy consumption patterns or equipment performance issues and sends alerts for immediate action
Simulation of various scenarios to evaluate the impact of changes in energy usage, equipment upgrades, or process adjustments on overall energy consumption and costs
Identification of periods of peak demand and suggests strategies to shift or reduce energy use during these times to minimize costs

UI/UX

Usage of graphs, charts, heat maps, and other visual elements to represent energy usage patterns, trends, and anomalies, making complex data easier to understand
Enabling of users to click through from high-level overviews to more detailed data, such as specific time periods, equipment, or locations, to analyze energy use more deeply
Customizable reporting of energy performance, costs, and trends over selected periods, which can be easily exported or shared
Interfacing of simulations for future energy usage scenarios and forecasts based on historical data and trends

Key Features for Your
Energy Optimization System

Smart Power Grid

Related Demos

Balance a power grid of any size with ease. Aggregate data from each device and get detailed performance statistics across the whole infrastructure.

Create mimic diagrams as comlex as you need and bring them to life with the SVG Editor.

Customers and Partners

System Integrators
Small or Medium Businesses
Original Device Manufacturers
Independent Software Vendors
Engineering Companies
Government Agencies

Solution Users and Developers

Dedicated low code developers
SCADA/HMI engineers
Industrial automation specialists
IoT/IIoT specialists
Power engineering professionals

Customer success team

Community

Online training

Energy Management System