Integrated Command and Control Centre
Smart City Central Command for Intelligent Governance
Integrated Command and Control Centre (ICCC) is the strategic nerve center of a smart city ecosystem, established to enable centralized monitoring, intelligent coordination, and responsive governance across all urban infrastructure and public service systems. Functioning as a unified digital platform, the ICCC seamlessly integrates real-time data from a wide range of departments and services—such as water supply and SCADA systems, AMR-based utility metering, smart streetlights, solid waste vehicle tracking, CCTV surveillance, VMD displays, public transport systems, smart classrooms, environmental sensors, parking systems, Wi-Fi hotspots, drone surveillance, and citizen-facing e-governance portals—through secure, API-driven communication protocols. This integration allows municipal authorities to monitor operational performance, detect service anomalies, manage emergencies, and issue rapid commands from a single location, supported by visual dashboards, GIS mapping, AI-enabled analytics, and automated event escalation workflows. The ICCC not only streamlines cross-departmental coordination but also enhances transparency, improves response time, and enables evidence-based decision-making through predictive insights and historical trend data. By integrating call canters, citizen mobile apps, and feedback systems, it also strengthens public engagement and accountability. Designed for scalability, interoperability, and long-term sustainability, the ICCC lays the digital foundation for smart, efficient, inclusive, and future-ready urban governance—perfectly aligned with the objectives of the Smart Cities Mission, Digital India initiative, and emerging global standards in urban innovation.
SCADA (WATER)
Intelligent Control for Efficient Smart Water Management
The SCADA (Supervisory Control and Data Acquisition) system for water supply is developed to enable intelligent, centralized monitoring and control of the entire water infrastructure network. The project includes the supply, installation, commissioning, and maintenance of advanced automation and sensor-based technologies across key assets such as reservoirs, headworks, water treatment plants (WTPs), booster stations, rural sumps, overhead tanks (OHTs), and DMA (District Metered Area) chambers.
A centralized control center is established to provide real-time data visualization, system alerts, and remote operational capabilities. The system integrates key components including electromagnetic flowmeters, electrically actuated valves, pressure transmitters, ultrasonic level sensors, and water quality monitoring sensors for chlorine, ammonia, turbidity, conductivity, TDS, and pH.
This SCADA implementation ensures efficient water distribution, leakage control, quality assurance, and energy optimization, supporting sustainable and responsive water resource management across urban and rural areas.
A centralized control center is established to provide real-time data visualization, system alerts, and remote operational capabilities. The system integrates key components including electromagnetic flowmeters, electrically actuated valves, pressure transmitters, ultrasonic level sensors, and water quality monitoring sensors for chlorine, ammonia, turbidity, conductivity, TDS, and pH.
This SCADA implementation ensures efficient water distribution, leakage control, quality assurance, and energy optimization, supporting sustainable and responsive water resource management across urban and rural areas.
SCADA (EB)
Control and Monitoring of all Electrical Networks
This project involves the Supply, Installation, Testing, and Commissioning of advanced Network Interface Cards (NICs), designed to function as intelligent modems for seamless communication via RF, Cellular, and Bluetooth technologies. These NICs will be integrated with Data Acquisition Systems and existing Feeder Meter Data Management (MDM) platforms to enable accurate, real-time monitoring, data collection, and remote control of electrical feeder networks.
The system enhances operational visibility and reduces manual intervention by enabling continuous, automated data transmission to central SCADA platforms. It supports real-time event logging, exception alerts, and remote diagnostics, allowing utility operators to monitor performance, identify faults, and take timely corrective actions.
Designed for scalability, interoperability, and cybersecurity, the solution ensures reliable communication across diverse network environments. The project scope also includes commissioning, integration testing, and user training to ensure smooth implementation. Overall, this initiative will improve network efficiency, data reliability, and energy management within the electrical distribution infrastructure.
The system enhances operational visibility and reduces manual intervention by enabling continuous, automated data transmission to central SCADA platforms. It supports real-time event logging, exception alerts, and remote diagnostics, allowing utility operators to monitor performance, identify faults, and take timely corrective actions.
Designed for scalability, interoperability, and cybersecurity, the solution ensures reliable communication across diverse network environments. The project scope also includes commissioning, integration testing, and user training to ensure smooth implementation. Overall, this initiative will improve network efficiency, data reliability, and energy management within the electrical distribution infrastructure.
24X7 WATER SUPPLY
Delivering Round-the-Clock Water with Quality and Reliability
The 24x7 Water Supply Project is designed to ensure round-the-clock access to clean and reliable water for all residents within the service area. The project includes the comprehensive Design, Supply, Construction, Testing, and Commissioning of essential water infrastructure such as Pump Rooms, Overhead Tanks (OHTs), Feeder Mains, Pipelines, and Distribution Networks. Associated civil works like excavation, road cutting, and re-roading are also part of the implementation to restore public pathways post-installation.
A key feature of the project is the integration of a SCADA (Supervisory Control and Data Acquisition) system for centralized, real-time monitoring and remote control of the entire water supply network. This allows for efficient management, leak detection, pressure control, and operational transparency. To promote accountability and accurate billing, MultiJet mechanical water meters will be installed at all individual household connections. These meters will help track consumption, reduce water wastage, and support equitable distribution. Overall, the project aims to enhance water service delivery, improve operational efficiency, and ensure sustainable, uninterrupted water supply to every household, aligning with modern urban infrastructure goals.
A key feature of the project is the integration of a SCADA (Supervisory Control and Data Acquisition) system for centralized, real-time monitoring and remote control of the entire water supply network. This allows for efficient management, leak detection, pressure control, and operational transparency. To promote accountability and accurate billing, MultiJet mechanical water meters will be installed at all individual household connections. These meters will help track consumption, reduce water wastage, and support equitable distribution. Overall, the project aims to enhance water service delivery, improve operational efficiency, and ensure sustainable, uninterrupted water supply to every household, aligning with modern urban infrastructure goals.
SMART METER (AMR/AMI) - WATER
Next Generation Water Management Solution
The Automated Meter Reading (AMR) project is a strategic initiative to modernise water metering and revenue collection by deploying smart, ISO 4064-compliant digital water meters across commercial, industrial, and domestic connections. These meters are equipped with LoRa, GPRS, or NB-IoT communication modules to automatically transmit real-time consumption data to a centralised Meter Data Management System (MDMS), eliminating manual reading errors and enabling efficient monitoring.
The system is integrated with the city’s Integrated Command and Control Centre (ICCC) for remote tracking of usage trends, leak detection, and meter diagnostics. Consumers can access their usage data, alerts, and pay bills digitally through a mobile app with UPI-enabled payment options, enhancing transparency and convenience.
The project also includes the supply and commissioning of communication gateways, cloud hosting, handheld devices, and a 5-year O&M plan to ensure reliability, calibration, and system support. Aligned with Smart Cities. this AMR solution enhances water governance, reduces non-revenue water (NRW), and supports digital transformation in utility services.
The system is integrated with the city’s Integrated Command and Control Centre (ICCC) for remote tracking of usage trends, leak detection, and meter diagnostics. Consumers can access their usage data, alerts, and pay bills digitally through a mobile app with UPI-enabled payment options, enhancing transparency and convenience.
The project also includes the supply and commissioning of communication gateways, cloud hosting, handheld devices, and a 5-year O&M plan to ensure reliability, calibration, and system support. Aligned with Smart Cities. this AMR solution enhances water governance, reduces non-revenue water (NRW), and supports digital transformation in utility services.
SMART METER (AMR/AMI) - EB
Next Generation Energy Monitoring Solution
The Smart Metering Infrastructure project is a transformative initiative that leverages Advanced Metering Infrastructure (AMI) technology to modernize electricity distribution across domestic, commercial, and industrial segments. Through the deployment of smart meters integrated with secure communication networks (RF mesh, NB-IoT, 4G), Head-End Systems (HES), and Meter Data Management Systems (MDMS), the project enables real-time energy monitoring, flexible tariff-based billing—including Time-of-Day (ToD) rates—and seamless integration with backend billing and customer service platforms. Consumers can access their usage data anytime via mobile apps or online portals, while utilities benefit from features like automatic disconnection and reconnection for non-payment, instant power theft detection, remote meter configuration, and transformer-level loss monitoring. The system supports both prepaid and postpaid models, dynamically applies tariffs based on load type, and integrates with net metering for rooftop solar users. Advanced analytics and cloud-based dashboards enhance operational efficiency, predictive maintenance, and outage response, while robust encryption ensures data security. With ICCC integration for real-time control and oversight, this next-generation smart metering solution delivers a more transparent, efficient, and consumer-centric electricity ecosystem.
SMART BUS SHELTER
The Future of Public Transit Stops Here
The Smart Bus Shelter is a fully integrated urban infrastructure unit designed to offer a safe, smart, and convenient waiting environment for public transport users. It is equipped with a powder-coated MS or galvanised steel frame, a UV-stabilised polycarbonate or FRP curved roof, and an elevated RCC platform with anti-skid tiles and universal ramp access. Inside, it features stainless steel seating for passengers, ACP or toughened glass side and back panels for protection and branding. The shelter includes an outdoor P6 LED display for real-time bus route and arrival updates, a commercial-grade LCD digital screen for cloud-based advertising, and static advertisement panels with optional LED backlighting. For safety and monitoring, it has dual CCTV cameras (inside and outside), connected to a central NVR with cloud sync, and a vandal-proof public emergency telephone linked to the ICCC. A cloud-enabled speaker system allows real-time public announcements, while the hybrid power system—comprising EB mains and a 100W solar panel with MPPT charge controller and 75Ah battery—ensures uninterrupted operation. All smart systems are connected via an industrial-grade 4G LTE router with SIM-based broadband and VPN support, fully integrated into the city’s ICCC platform. This smart shelter combines intelligent design, sustainability, digital communication, and revenue generation in one modern urban solution.
SMART BUS TERMINAL
Integrated Public Transport with Technology and Comfort
The Smart Bus Terminal Project is a forward-thinking initiative to modernize a traditional bus terminal into a digitally integrated, passenger-friendly, and energy-efficient facility. This terminal will offer a wide range of smart public amenities such as paid Wi-Fi, charging points, real-time bus information displays, smart toilets, RO water units, travel lounges, and children’s play areas, enhancing commuter convenience and comfort.
The system will be monitored through the Integrated Command and Control Centre (ICCC) and a Local Command Room, ensuring 24/7 surveillance, announcements, and real-time asset control. A FASTag bus entry system, advertising displays, and paid utility services will create sustainable revenue streams to support long-term O&M.
To promote last-mile connectivity, the terminal will include a Smart Bike Parking Zone with app-based access and solar-powered security. Additionally, a solar power system will supply critical loads, supporting the project’s sustainability goals. This Smart Bus Terminal will function as a scalable model for intelligent, efficient, and commuter-centric transport infrastructure under the Smart Cities framework.
The system will be monitored through the Integrated Command and Control Centre (ICCC) and a Local Command Room, ensuring 24/7 surveillance, announcements, and real-time asset control. A FASTag bus entry system, advertising displays, and paid utility services will create sustainable revenue streams to support long-term O&M.
To promote last-mile connectivity, the terminal will include a Smart Bike Parking Zone with app-based access and solar-powered security. Additionally, a solar power system will supply critical loads, supporting the project’s sustainability goals. This Smart Bus Terminal will function as a scalable model for intelligent, efficient, and commuter-centric transport infrastructure under the Smart Cities framework.
LED SMART DISPLAY
Connecting the City with Instant, Intelligent Communication
Variable Message Display (VMD) systems are advanced digital signage solutions designed for real-time public communication in urban environments. These high-brightness, outdoor LED displays are installed at strategic locations such as traffic intersections, public transit points, and high-footfall zones to convey important civic information, emergency alerts, traffic updates, and public announcements.
Each VMD unit is seamlessly integrated with the Integrated Command and Control Centre (ICCC) through a cloud-based management platform, enabling centralised content control, scheduling, and live message publishing. This integration allows municipal authorities to monitor the operational status of each display, push targeted messages based on city events, and respond instantly during emergencies. The system supports secure multi-user access, role-based content publishing, and full data logging for compliance and analytics.
With its ability to communicate vital information efficiently and its alignment with Smart City and Digital India initiatives, VMD systems are essential for building a responsive, connected, and citizen-friendly urban ecosystem.
SMART PARKING AUTOMATION
Unlock Urban Space Intelligent Parking for Modern Cities
To address the growing urban challenge of parking scarcity, traffic congestion, and inefficient land use, our Smart Multi-Level Car Parking System introduces a fully automated, vertical parking solution designed for prime city zones. This advanced system integrates intelligent car lift technology, FASTag-based digital payments, license plate recognition (LPR), and real-time CCTV surveillance — all seamlessly controlled through a centralized ICCC (Integrated Command and Control Centre). Built with a compact footprint and high load-bearing capacity, the structure accommodates multiple vehicles across vertical levels using anti-skid platforms and programmable logic-controlled lifts. Access is managed via boom barriers with RFID/FASTag scanners and QR-code readers, enabling contactless, ticketless entry and exit. The system also incorporates fire safety devices like smoke detectors, sprinklers, and emergency alert buttons, alongside 24/7 monitoring through IP cameras connected to the city’s ICCC dashboard. Our solution ensures enhanced public convenience, operational efficiency, data-driven control, and reliable safety — making it a scalable and future-ready infrastructure model for smart cities.
SMART LIGHT AUTOMATION
Illuminating the Future of Urban Living Intelligently
This Smart Street Light Monitoring and Control System is a modern urban infrastructure solution designed to automate, monitor, and manage municipal lighting using intelligent IoT technology. The project integrates key components including smart streetlight controllers, automated feeder panels, cloud-based SCADA, and centralised ICCC (Integrated Command and Control Centre) connectivity.
Each streetlight is fitted with a smart controller that supports scheduled ON/OFF, dimming, and fault detection. These units communicate through LoRa or GPRS, relaying data to feeder panels equipped with digital energy meters, contractors, UPS backups, and surge protection.
All system data is transmitted to a cloud-based SCADA platform, which provides analytics, real-time monitoring, and energy usage reports. The SCADA system is further integrated with the city’s ICCC, allowing centralised command, alert management, and maintenance tracking.
This smart lighting network enhances energy efficiency, reduces maintenance costs, improves night-time safety, and supports real-time governance — laying the foundation for a truly smart and sustainable city.
SMART VEHICLE INTEGRATION
Mobile Command: Real-Time Control Direct Citizen Engagement
The Smart Van & Mobile ICCC (Integrated Command and Control Centre) project is an innovative initiative designed to deliver real-time governance, surveillance, and public service management directly to the field. This mobile solution acts as an extension of the central ICCC, fully equipped with cloud-connected communication systems, GPS-enabled tracking, high-resolution CCTV surveillance, public address systems, and onboard digital workstations. The van serves multi-purpose roles such as mobile tax collection, on-site grievance redressal, emergency response coordination, smart monitoring of urban services, and data collection for analytics. Integrated with the central ICCC via secured wireless networks, the vehicle provides seamless live data streaming, automated reporting, and remote command capabilities. Additional features include environmental sensors, smart power backup systems, IoT-enabled devices for utility inspections, and touchscreen kiosks for public use. This Smart Van empowers city administrations to extend digital governance and public outreach directly to citizens, ensuring faster response, transparency, and improved urban service delivery.
SMART CLASSROOM INTEGRATION
Transforming Classrooms with Smart Technology
The Smart Classroom Project is a transformative educational initiative designed to upgrade traditional municipal school classrooms with advanced digital technologies to create interactive, engaging, and future-ready learning environments. Each classroom is equipped with a 65-inch interactive smart panel, OPS-enabled mini computer, high-speed Wi-Fi connectivity, wall-mounted audio systems, and cloud-based digital content aligned with NCERT/SCERT curriculum. Teachers are empowered with instructor laptops, digital podiums, wireless microphones, and content management dashboards that allow seamless lesson delivery and real-time performance tracking. The system integrates audio-visual teaching tools, LMS platforms, internet-based assessments, and projector-camera setups for both live and recorded sessions. Backed by a 1 KVA UPS for uninterrupted operations and supported by ongoing technical training and AMC, the Smart Classroom project ensures an inclusive, modern, and scalable digital learning experience for every student in municipal schools.
SMART LIBRARIES
World-class Smart Library system integrating with Digital Automation
The Smart Library project is a visionary initiative aimed at revolutionising traditional public libraries by incorporating cutting-edge digital technologies, automation, and centralised governance. This system will integrate seamlessly with the Integrated Command and Control Center (ICCC), enabling real-time monitoring of library operations, footfall analytics, asset security, and user engagement. Key features include QR-code-based book tagging and tracking, mobile application access for book search, reservations, and online seat booking, UPI-enabled cashless payments for fines and services, and high-speed secured Wi-Fi connectivity. The library will be equipped with smart kiosks for self-service, CCTV surveillance linked to ICCC, digital reading zones, smart lockers, and e-learning pods. This transformation not only ensures operational efficiency but also creates an inclusive, tech-enabled, and user-friendly environment that promotes digital literacy and lifelong learning. Designed with a focus on global best practices, this world-class Smart Library infrastructure empowers citizens to access knowledge anytime, anywhere—securely, smartly, and seamlessly.
SMART WASTE MANAGEMENT
Intelligent Solutions for a Sustainable Tomorrow
The Smart Waste Management System – an innovative and technology-driven solution designed to revolutionise municipal waste collection and urban cleanliness. This integrated platform combines GPS-enabled vehicle tracking, IoT-based smart bins with ultrasonic fill-level sensors, AI-powered route planning and optimisation software, and a centralised ICCC (Integrated Command and Control Centre) dashboard to enable efficient, transparent, and responsive waste management operations. The system ensures real-time monitoring of garbage trucks, automatic alerts for overflowing bins, dynamic route adjustments based on bin status, and centralised visualisation of all field activities within the ICCC. By connecting key components through cloud-based APIs and wireless networks (GSM/LoRa/Wi-Fi), the platform empowers municipal authorities with actionable insights, improves service reliability, minimises fuel consumption, and promotes a cleaner, healthier urban environment. This smart infrastructure solution is aligned with modern smart city goals, enabling data-driven governance and citizen-centric waste management services.
Filling Station Automation
Intelligent Metering and Flow Control for Efficiency
The AMR (Automated Meter Reading) project involves the supply, installation, and commissioning of smart meters for commercial and industrial water connections, integrated with a robust gateway system for centralised data collection and transmission. The system enables real-time water usage monitoring, automated reporting, and seamless integration with billing systems, eliminating manual readings. It supports wireless communication for efficient data transfer and anomaly detection, ensuring operational transparency and accuracy. Additionally, the project includes a comprehensive 5-year maintenance plan, ensuring system reliability, timely updates, and sustained performance to optimise water resource management.
The project involves the Supplying, Installing, and Commissioning of advanced Filling Post Control Units and Smart Card-Based Online Monitoring Systems utilising IoT and SCADA technologies across 191 filling points. The system integrates Electromagnetic Smart Flow Meters and Motorised Valves to ensure accurate flow measurement and precise control. Additionally, the project includes a Distribution Vehicle Tracking and Monitoring System, enabling real-time tracking, automated reporting, and seamless data integration. This comprehensive setup enhances operational efficiency, ensures accurate monitoring, and provides end-to-end visibility of the distribution network, thereby optimising resource management and improving accountability.
The project involves the Supplying, Installing, and Commissioning of advanced Filling Post Control Units and Smart Card-Based Online Monitoring Systems utilising IoT and SCADA technologies across 191 filling points. The system integrates Electromagnetic Smart Flow Meters and Motorised Valves to ensure accurate flow measurement and precise control. Additionally, the project includes a Distribution Vehicle Tracking and Monitoring System, enabling real-time tracking, automated reporting, and seamless data integration. This comprehensive setup enhances operational efficiency, ensures accurate monitoring, and provides end-to-end visibility of the distribution network, thereby optimising resource management and improving accountability.
STP AUTOMATION
Real-Time Monitoring, Automated Control, Sustainable Outcomes
The OCEMS & STP Automation project involves the end-to-end design, supply, installation, and commissioning of an advanced automated sewage treatment system integrated with an Online Continuous Effluent Monitoring System (OCEMS). This system is designed to ensure real-time monitoring, regulatory compliance, and optimized operational control of wastewater treatment processes. It features high-precision electromagnetic flowmeters for accurate flow measurement, electrically actuated valves for automated regulation of flow and pressure, and multi-parameter analysers to continuously monitor pH, turbidity, COD, BOD, TSS, ammonia, and nitrate levels. All components are centrally integrated with a SCADA or equivalent automation platform, enabling remote access, live data logging, alarm generation, trend analysis, and compliance reporting. The setup is housed in corrosion-resistant, weatherproof enclosures and supports integration with cloud-based or municipal ICCC systems. This robust, energy-efficient, and intelligent infrastructure significantly enhances treatment reliability, reduces manual intervention, and supports sustainable urban water management practices.
SOLAR POWER SYSTEM
Powering a Sustainable Future, One Rooftop at a Time
The demand for sustainable and cost-effective energy solutions is rapidly increasing across urban and rural areas. In response, this project aims to implement grid-connected rooftop solar power systems on all eligible buildings—residential, commercial, industrial, and institutional—to harness clean and renewable solar energy. This initiative promotes energy self-sufficiency, reduces dependency on conventional power sources, and significantly lowers electricity costs for building owners.
By utilizing unused rooftop space, the project turns passive structures into active energy-generating assets. It features high-efficiency solar panels, smart inverters, and real-time monitoring systems that provide transparency and ease of management for each site. The systems will be installed in accordance with national and international safety and performance standards, with options for net metering, hybrid systems, and battery backup depending on the use case.
The broader goal of this initiative is to reduce carbon emissions, improve energy accessibility, and contribute to India’s national renewable energy targets. The project supports public and private participation and encourages community-wide adoption of solar power by showcasing tangible environmental and economic benefits. Whether on a residential rooftop, a school, a shopping complex, a hospital, or an industrial warehouse, this project offers a smart, scalable, and sustainable solution to meet the growing energy needs of the future.
By utilizing unused rooftop space, the project turns passive structures into active energy-generating assets. It features high-efficiency solar panels, smart inverters, and real-time monitoring systems that provide transparency and ease of management for each site. The systems will be installed in accordance with national and international safety and performance standards, with options for net metering, hybrid systems, and battery backup depending on the use case.
The broader goal of this initiative is to reduce carbon emissions, improve energy accessibility, and contribute to India’s national renewable energy targets. The project supports public and private participation and encourages community-wide adoption of solar power by showcasing tangible environmental and economic benefits. Whether on a residential rooftop, a school, a shopping complex, a hospital, or an industrial warehouse, this project offers a smart, scalable, and sustainable solution to meet the growing energy needs of the future.
OMS (Oxygen Monitoring System)
Real-Time Oxygen Monitoring for Healthcare Across Tamil Nadu
The project involves the Supply, Installation, Testing, and Commissioning of an Oxygen Monitoring System (OMS) across all government hospitals in Tamil Nadu. The OMS will continuously monitor the availability, pressure levels, and flow rates of medical oxygen in centralized and distributed supply systems. It will include the installation of sensors, control panels, and real-time monitoring units integrated with a centralized dashboard for remote supervision. The system will ensure early detection of low oxygen levels, enable quick response to critical situations, and maintain uninterrupted oxygen supply for patient care. The project scope covers site preparation, equipment installation, system integration, testing, commissioning, and user training. A 5-year maintenance and support plan is also included to ensure system reliability, periodic calibration, timely repairs, and operational sustainability.
SMART SURVEILLANCE SYSTEM
AI-powered IoT Surveillance System Integration
Implement a next-generation IoT-based Smart Surveillance Monitoring System, centrally operated through an Integrated Command and Control Centre (ICCC). This system provides continuous real-time monitoring, automated incident alerts, and data-driven decision support for public spaces and critical infrastructure such as waste processing sites, government buildings, and utility zones. High-definition IP cameras equipped with edge-based AI analytics will detect motion, intrusion, fire, garbage overflow, and other anomalies, enabling proactive response. The solution includes secure broadband or 4G/5G connectivity, hybrid storage with NVR and cloud-based GPU servers, and integration with the ICCC for live streaming, remote diagnostics, and smart reporting. Designed with scalability and interoperability in mind, the system supports modular expansion, encrypted communication, and remote access. Additional features such as facial recognition, mobile app support, and GIS-based camera mapping enhance operational efficiency and visibility. This intelligent surveillance infrastructure forms a foundational layer of urban safety and governance, aligned with the vision of smarter, safer, and more responsive cities.
