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Control Center, a leading automated connectivity management platform, helps ensure your IoT services run reliably, securely and at the lowest cost.

Because connectivity is what links your devices to global networks, your customers and your backend systems, it has to be continuously managed – not just turned on to bring a device online and turned off when a device is retired.

Automating managed connectivity addresses five critical challenges companies running IoT service businesses face:
- Protect against potential security breaches
- Control cost and reduce operational expenses
- Ensure that devices work anywhere they’re needed
- Detect abnormal behavior
- Ensure reliable data delivery
Lifecycle Automation
A powerful automation engine manages devices by exception, reducing time and costs associated with ongoing operational support.

Monitoring and diagnostics
Identify and respond to unusual device behavior in near real-time with remote diagnostics and analytics.

Comprehensive security
Multi-layered, comprehensive security controls safeguard your customer data, devices and IT systems.

Cost management controls
Near real-time cost monitoring and controls help you lower total cost of ownership and eliminate unexpected spend.

Global deployment
Partnerships with 30+ mobile operator groups, representing 120+ networks, ensure your devices work everywhere.

Back-end integration
A rich library of 100+ APIs makes it easy to manage devices, change rate plans, and much more.

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  • SUPPLIER
  • Cisco Jasper
    Cisco Jasper is a global Internet of Things (IoT) platform leader. We believe that IoT is more than a smart thing, a great app, and a way to connect to the internet. It’s not about things, it’s about meeting the changing needs and expectations of customers with new services, experiences and business models that deliver bottom line growth.
  • SNAPSHOT
  • Software as a Service
    Open website
  • Application Industries
  • Automotive
    Equipment & Machinery
    Heavy Vehicle
    Mining
    Transportation
  • Application Functions
  • Logistics & Warehousing
    Maintenance
    Other
    Product Development
    Quality Assurance
  • USE CASES
  • Vehicle Telematics
    Fleet telematics enable the monitoring of location, movement, status, and behavior of a vehicle within a fleet. This is achieved through a combination of a GPS receiver and an electronic GSM device that is installed in each vehicle, which then communicates with the user and cloud-based software. Additional sensors and actuators may be added to the system to enable additional functionality, such as vehicle remote control and driver status tracking.Telematics systems provide analytics to determine the optimal route based on location and traffic information, the vehicle's condition, and operational cost prediction.  
    Fleet Management (FM)
    Fleet management is an administrative approach that allows companies to organize and coordinate work vehicles with the aim to improve efficiency, reduce costs, and provide compliance with government regulations. While most commonly used for vehicle tracking, fleet management includes following and recording mechanical diagnostics and driver behavior.Automated Fleet Management solutions to connect vehicles and monitor driver activities, allowing managers to gain an unprecedented level of insight into fleet performance and driver behavior. This enables them to know where vehicles and drivers are at all times, identify potential problems much sooner and mitigate risks before they become larger issues that can jeopardize client satisfaction, impact driver safety or increase costs. 
    Industrial Wearables
    Industrial wearable devices are tools designed to improve workplace productivity, safety, and efficiency in sectors such as manufacturing, logistics, and mining. These devices collect data in real time, track activities, provide alerts, and provide customized experiences depending on the users' needs and organizational objectives. They are typically designed for specific situations or industry verticals, as opposed to consumer wearables which are often general in function.  Industrial wearables can be designed to aid a worker in performing specific tasks or to measure health parameters for working in dangerous environments. In addition to performing a specific function for their wearer, the devices can be linked to enterprise systems. For example, linking wearables worn by employees in hazardous environments to employee welfare programs can be used to track and provide evidence of the wellbeing of employees, thereby reducing health insurance costs.
    Process Control & Optimization (PCO)
    Process Control and Optimization (PCO) is the discipline of adjusting a process to maintain or optimize a specified set of parameters without violating process constraints.The PCO market is being driven by rising demand for energy efficient production processes, safety and security concerns, and the development of IoT systems that can reliably predict process deviations.Fundamentally, there are three parameters that can be adjusted to affect optimal performance:- Equipment optimizationThe first step is to verify that the existing equipment is being used to its fullest advantage by examining operating data to identify equipment bottlenecks.- Operating proceduresOperating procedures may vary widely from person-to-person or from shift-to-shift. Automation of the plant can help significantly. But automation will be of no help if the operators take control and run the plant in manual.- Control optimizationIn a typical processing plant, such as a chemical plant or oil refinery, there are hundreds or even thousands of control loops. Each control loop is responsible for controlling one part of the process, such as maintaining a temperature, level, or flow. If the control loop is not properly designed and tuned, the process runs below its optimum. The process will be more expensive to operate, and equipment will wear out prematurely. For each control loop to run optimally, identification of sensor, valve, and tuning problems is important. It has been well documented that over 35% of control loops typically have problems. The process of continuously monitoring and optimizing the entire plant is sometimes called performance supervision.
    Factory Operations Visibility & Intelligence
    Visualizing factory operations data is a challenge for many manufacturers today. One of the IIoT initiatives some manufacturers are pursuing today is providing real-time visibility in factory operations and the health of machines. The goal is to improve manufacturing efficiency. The challenge is in combining and correlating diverse data sources that greatly vary in nature, origin, and life cycle.Factory Operations Visibility and Intelligence (FOVI) is designed to collect sensor data generated on the factory floor, production-equipment logs, production plans and statistics, operator information, and to integrate all this and other related information in the cloud. In this way, it can be used to bring visibility to production facilities, analyze and predict outcomes, and support better decisions for improvements.  
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