Solution overview
IoT technology is transforming the way businesses operate. ANEGIS can connect new or existing asset telemetry with your back-end systems. Previously untapped or under-utilised operational data from millions of connected devices can now be analysed and acted upon to bring greater agility and profitability to your operational processes and supply chain management.
ANEGIS develops IoT solutions for applications including
- Position monitoring - Retail asset location tracking.
- Supply chain control - Product tracking and monitoring of storage conditions.
- Smart product management - Automation of warehouse restocking processes.
- Field service - Real-time asset performance with streaming data analysis.
- Storage levels - Storage tank and cistern level monitoring.
- Fleet tracking - Asset and route control.
- Temperature monitoring - Industrial, medical and retail asset temperature monitoring and control.
- M2M applications - Machine auto-diagnosis and assets control.
Industry focus
Manufacturing
Integrate your ERP system with your production plan. Monitor assets in real time to anticipate service needs, pre-empt problems and avoid unscheduled downtime. enables the automation of processes with the ability to automatically trigger alerts and operational actions.
Real-time machine metrics, such as performance, operating conditions, behaviour and failure potential can be set up and viewed directly in a cloud dashboard without having to manage complex infrastructure and software.
Retail
From storefronts to hospitality establishments to entertainment venues, easily customised preconfigured solutions can reduce your operating costs, monitor quality and safety, improve equipment maintenance, and track supplies.
Inventory tracking and predictive maintenance bring efficiencies and business growth to diverse retail environments, from supermarkets and stadiums to restaurants and vending machines.
Healthcare
Transform processes, patient care and equipment maintenance. Use IoT technology to track and maintain vital equipment, track hygiene practices, and monitor storage of supplies and medicine.
Use predictive maintenance to ensure critical medical devices are ready to use when they are needed by fixing problems before they occur.
With wearable sensors, doctors can allow patients to receive care at home, remotely tracking and responding to a patient's health status in real time.
Natural resources
Increase natural resource and environmental efficiencies. Monitor the quality and environmental conditions of water utilities for cleaner drinking water, while tracking water consumption to save money and reduce usage.
By creating smart grids and optimising solar panel performance using remote monitoring and predictive maintenance, energy production is more efficiently aligned with demand.
Monitor both environmental and safety conditions, and track equipment efficiency; perform predictive maintenance to limit equipment downtime.
Smart cities
IoT solutions create safer, more efficient cities by transforming infrastructures, buildings, and services.
Remote monitoring of public assets can improve public service efficiency, from repairing broken street lamps to maintaining traffic lights to optimising rubbish truck routes. Usage tracking and smart grids can be applied to deliver a reliable, efficient, and greener energy transmission, allowing customer tariffs to be lowered. Connected building devices and systems also create healthier and more efficient living and working spaces.
Transport
Use IoT devices to track and monitor your fleet assets. Intelligent analytics allows predictive maintenance to keep vehicles on the road by fixing potential issues during downtime.
Fleet logistics can be streamlined using real-time data and alerts to optimise delivery routes, monitor performance, and quickly respond to delays or issues as they happen. The monitoring and processing of real-time traffic data helps manage transportation infrastructures, assess road conditions, and ease congestion.
Stream analytics
In IoT and IIoT (Industrial Internet of Things) scenarios stream analytics can process millions of events per second. Multiple streams can be compared, in real time, to each other or with historical values and models. Alerts can be set up to trigger when specific anomalies, thresholds or other conditions appear in the stream.
Mixed reality and IoT
The Microsoft HoloLens offers the unique ability to blend Mixed Reality with IoT. HoloLens Mixed Reality overlays the real world with digital content. The holographic overlays are seen directly within the user’s vision as they look around.
The ability to overlay holographic representations of Internet of Things objects over those very devices as you look at them can be used to implement a much more intuitive user experience for IoT that’s superior to a screen-based dashboard control. The user can simply look at any visible IoT device and control it with holographic controls or even voice commands.
Challenges
Many IoT devices are connected to the internet, which means data can be vulnerable to hacking attacks.
Implementing advanced security methods is essential to protect user data and avoid unpleasant surprises.
Connecting various IoT devices into a cohesive network can be difficult, especially when dealing with different communication protocols.
Communication standards like MQTT and CoAP help create cohesive IoT ecosystems.
Many IoT devices run on batteries, and their lifespan is limited.
Optimizing energy consumption and utilizing low-power technologies (e.g., Bluetooth Low Energy) is key to addressing this problem.
As the number of IoT devices grows, we need to ensure that our infrastructure is scalable.
Cloud computing and edge computing architectures allow for flexible adaptation to growing needs.
The lack of uniform standards can lead to chaos in the IoT world.
We're working on it! Organizations like IEEE, IETF, and ISO are working on defining standards that will facilitate interoperability between different devices.
Advantages
In the past, organizations had to create their own data analysis tools, which required financial and time investments. Now, thanks to IoT connectivity standards, we have access to built-in analysis tools. This means that data is more easily accessible, and process or market analysis becomes more efficient.
IoT can help monitor working conditions, such as in manufacturing plants or construction sites. This helps avoid dangerous situations and optimize the use of human resources.
With IoT, we can optimize resource management, such as production planning or maintenance. This leads to time and cost savings.
Digital transformation opens doors to innovation. With IoT, we can create products and services that seemed like science fiction not long ago. These can include smart power grids, patient health monitoring systems, and even autonomous vehicles. New business areas are developing at an express pace.
IoT enables real-time tracking of processes. This is useful in both production (e.g., quality control) and logistics (e.g., shipment tracking) or resource management (e.g., monitoring energy or water usage).
Data collected by IoT devices allows for more accurate decisions. An example is analyzing data from a vehicle fleet, which allows for better service planning or reducing fuel costs.
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