Five Advantages of Vehicle Telematics VT310 in Real-Time Monitoring of Heavy Equipment

Ⅰ. Why Need Vehicle Telematics Gateway VT310 in Real-Time Monitoring?

Recent years have witnessed constant and aggressive growth in the global heavy equipment market. This growth and demand increase is based upon both increased spending in roads and highway (infrastructure) as well as sizable expansion in oil and gas, mining, and the massive construction in pipelines to transport the energy found.

In this era where everything is connected, heavy equipment is also a segment that calls for digital transformation, as machine break and downtime undoubtedly mean less revenue and fewer opportunities. Research has demonstrated significant increase in revenue and customer satisfaction after industrial analytics is adopted.

Ⅱ. How Does Vehicle Telematics System Work?

A vehicle telematics system operates by integrating multiple technologies to collect, transmit, and analyze vehicular data.

1. Data Collection

The system employs various sensors and devices installed within the vehicle to capture pertinent data. This encompasses Global Positioning System (GPS) technology for location tracking, accelerometers for assessing driving behavior, and On-Board Diagnostics (OBD-II) interfaces for vehicle diagnostics.

2. Data Transmission

The gathered data is transmitted through cellular networks, including LTE or 5G, to a centralized server or cloud platform, facilitating real-time data accessibility for further analysis.

3. Data Processing and Analysis

The received data undergoes processing and analytical procedures to extract insights regarding vehicle performance, driver behavior, and other critical metrics. This analysis may involve mileage tracking, identification of harsh braking events, and evaluation of engine health.

4. User Interface

The processed data is presented to users via dashboards or specialized applications, enabling fleet managers to make data-driven decisions. Through these interfaces, they can monitor vehicle locations, plan maintenance schedules, and optimize routing.

5. Feedback and Control

Informed by the insights derived from analysis, subsequent actions may be implemented to enhance operational efficiency and safety. These actions can include issuing alerts to drivers, modifying routes, or scheduling preventive maintenance interventions.

Ⅲ. InHand Networks Solution of Remote Monitoring of Heavy Equipment------VT310

Featuring extensive I/O, standard protocols for communications and vehicle diagnostics, the VT310 can be connected to multiple peripherals on board (e.g. alarms, sensors, switches, controllers, etc.), conducts various functions including real-time engine diagnostics, anti-theft, days in use/on site, maintenance, etc.

Ⅳ. Five Advantages of Vehicle Telematics VT310 You Should Know

Advantage One: LTE CAT-M/1/4 Connectivity

The VT310 offers LTE CAT-M/1/4 connectivity, ensuring low-power and reliable communications for various duties ongoing in vehicles.

Advantage Two: Extensive Interfaces RS232, RS485, I/O

Integrating OBD-II, J1939 and J1708, the VT310 keeps track of the vehicle status and conducts real-time diagnostics, updating the user on problems and facilitating preventive maintenance. Extensive I/O can be connected to various devices on board for remote monitoring.

Advantage Three: Long-Time Support with 1200mAh Battery

Complete with a low power mode, the VT310 remains vigilant even when the machine is turned off. 1200mAh battery offers long-time support for onsite duty.

Advantage Four: Supports mainstream IoT cloud services

The Telematics supports mainstream IoT cloud services such as AWS and Azure IoT Hub. You can integrate the telematics gateways with your platform easily with the customized APIs.

Advantage Five: Featuring IP66 Protection Rating

Featuring IP66 protection rating, the VT310 survives most uncertain and harsh working environments, resistant to extreme temperatures, pressure, vibration, dust, water splashes, etc.

Ⅴ. Other Related Topics

1.What Is the Difference Between GPS and Telematics?

• GPS

GPS (Global Positioning System) is mainly used for positioning and navigation, providing geographic location and time information of devices through satellite signals. It is widely used in vehicle navigation, mapping services and location tracking.

• Telematics

Telematics is a broader concept that combines communication and information technology for the collection, transmission and analysis of vehicle data. It includes not only GPS positioning, but also features such as vehicle diagnostics, driving behavior monitoring, fleet management and remote control.

In simple terms, GPS is part of providing location data, while Telematics is an integrated system that utilizes that data for broader vehicle management and analysis.

2. Why Do I Need Telematics?

• Enhance Safety

By monitoring driving behavior and vehicle condition, we can identify potential issues proactively and mitigate the risk of accidents.

• Increase Efficiency

Real-time tracking of vehicle location and status allows for optimized route planning, leading to decreased fuel consumption and reduced time inefficiencies.

• Vehicle Maintenance

Leverage diagnostic data for preventive maintenance to prolong vehicle lifespan and minimize maintenance expenses.

• Fleet Management

Assists managers in effectively scheduling and overseeing fleet operations, thereby enhancing overall operational efficiency.

• Data Analysis

Deliver comprehensive data analysis reports to facilitate more informed decision-making for the business.

3. How Accurate Are Vehicle Telematics?

The accuracy of vehicle telematics is generally influenced by the technology and equipment utilized.

• Positioning Accuracy

Devices that employ GNSS (Global Navigation Satellite System) technology, including GPS, Galileo, Beidou, and GLONASS, typically achieve a positioning accuracy of approximately 2.5 meters.

• Data Acquisition

The precision of vehicle diagnostic data and driving behavior monitoring is contingent upon the sensors and software algorithms of the device, which often deliver high-precision real-time data.

• Environmental Factors

In certain circumstances, such as in densely populated areas or during adverse weather conditions, signal interference may occur, potentially impacting accuracy.

4. Do Telematics Drain The Battery?

Generally, Telematics devices are engineered to optimize power consumption, ensuring minimal impact on vehicle batteries.

• Low Power Design

Numerous devices feature a low power mode that enters a sleep state when not in use, effectively reducing battery consumption.

• Backup Battery

Certain devices are equipped with an integrated battery that maintains functionality when the vehicle is off, thereby decreasing dependence on the vehicle's primary battery.

• Voltage Range

These devices typically accommodate a broad voltage range (e.g., 9 to 48V) to be compatible with various vehicle power systems.

Conclusion

Vehicle Telematics Gateway VT310 is a rugged vehicle telematics gateway that is particularly useful for remote monitoring of heavy equipment. If you are interested in our VT310 device, you can visit our official store. Please contact us if you have any questions.

Phone: +1 (703) 348-2988 (US) 010-84170010 (CN)

Email: support@inhandgo.com

Website: https://inhandgo.com/