Remove the potential for human error and gain operational precision. Optimize routes and�speed to benefit from safer travel, reduced fuel consumption, and faster turnaround times. This can be achieved by deploying advanced sensors, GPS, and mission-critical connectivity on one platform for industrial digitalization.
Autonomous Vehicles & Equipment
Leverage real-time operational data and advanced analytics within your fleet management system to monitor fuel consumption, dynamically adjust routes, optimize production efficiency, and reduce costs.
Optimize Mining Fleet Management
Increase worker safety, reducing the potential for accidents through real-time awareness of�people and assets. Monitor equipment health and implement predictive maintenance to reduce risks. Monitor vehicle speeds and braking performance and maintain compliance reporting for your industrial fleet.
Enhance Operation Worker Safety
Monitor the health of your connected vehicles and other equipment. Use sensor data to detect potential issues and implement predictive maintenance activities. This will allow you to better schedule repairs and reduce costs and the impact of unplanned downtime on operations.
Predictive Maintenance
Leverage data from environmental and vehicle sensors to gain insights into your industrial fleet. Identify ways to optimize operations and better plan routes, leveraging historical and real-time vehicle data and KPIs on journey times, fuel consumption, and environmental and other performance data.
Get Insights from Transport Performance
Connect workers using 5G handheld devices and improve collaboration between drivers, dispatchers, supervisors and other teams, enabling them to make voice and video calls, and share data and messages in real time.
Workers Communication
Avoid accidents, unscheduled maintenance, and downtime by dispatching connected drones�equipped with cameras, videos, and sensors to inspect travel routes and infrastructure for�damage or other issues. Protect workers by reducing the need for manual inspection in extreme temperatures and harsh, rugged environments.
Drone Surveillance
Combine different wireless technologies (e.g. private wireless and Wi-Fi) as well as available�spectrum to deliver the higher performance required by smart stockyard use cases, such as autonomous operations and predictive maintenance, for greater efficiency.
Enhance Smart Stockyard
Operational Efficiency
Enhance Smart
Stockyard Operational
Efficiency
Autonomous Vehicles
and Equipment
Fleet Management
& Optimization
Enhance Operation Worker Safety
Predictive Maintenance
Get Insights from
Transport Performance
Workers Communication
Drones
Surveillance
Pit To Port Transportation
Solution:
Solution:
Solution:
Solution:
Solution:
Solution:
Solution:
Solution:
- MX Boost
- Private Wireless or Wi-Fi/MPW
- MX Industrial Edge
- HERE HD GNSS
- HERE HD GNSS
- MX Boost
- HERE HD GNSS
- Private Wireless or Wi-Fi/MPW
- MX Boost
- HERE HD GNSS
- MX Industrial Edge
- MX Boost
- HERE HD GNSS
- MX Industrial Edge
- Private Wireless or Wi-Fi/MPW
- MX Boost
- HERE HD GNSS
- Nokia Team Comms
- MX Workmate
- HERE HD GNSS
- MX Industrial Edge
- Private Wireless or Wi-Fi/MPW
- MX Workmate
- Nokia Team Comms
- MX Workmate
- Crosser
- Nokia Team Comms
- MX Workmate
- Private Wireless or Wi-Fi/MPW
- Crosser
- Crosser / Litmus data analytics platform
- MX Industrial Edge
- MX Workmate
- MX Workmate
- MX Industrial Edge
- Private Wireless or Wi-Fi/MPW
- Crosser / Litmus data analytics platform
- Industrial Devices
- MX Industrial Edge
- Nokia Team Comms
- Industrial devices
- MX Industrial Edge
- Private Wireless or Wi-Fi/MPW
- Nokia Team Comms
- MX Industrial Edge
- Nokia Drone Networks
- MX Industrial Edge
- Private Wireless or Wi-Fi/MPW
- Nokia Drone Networks
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW
- Private Wireless or MPW