Fleet Tracking Market Insights and Outlook 2020-2025 - Tankers and Container Vessels to Lead Sea-based Fleet Tracking Market Through 2025 - ResearchAndMarkets.com

DUBLIN--()--The "Fleet Tracking Market by Mode (Air, Roadway, Railway, and Water) Fleet Type (Services, Transport, Taxi, Special Purpose), Vehicle Type (Car, Container, Rail, Plane, Ship, Truck, Van), Industry Verticals and Regions 2020 - 2025" report has been added to ResearchAndMarkets.com's offering.

This fleet tracking market report evaluates fleet tracking technologies, solutions, and ecosystem including major players. The report assesses the impacts of various use cases and specific considerations in terms of asset technology and solution selection.

The report also analyzes the outlook for fleet tracking market globally and regionally. Quantitative data and forecasts include market segmentation by Mode (Air, Roadway, Railway, and Water), Fleet Type (Services, Transport, Taxi, Special Purpose), Vehicle Type (Car, Container, Rail, Plane, Ship, Truck, Van), Industry Verticals and Region from 2020 to 2025.

Select Research Findings

  • Fleet is rapidly moving to a cloud-based support approach, especially with edge computing
  • Fleets are largely not connected today, representing a huge upside for the fleet management market
  • Largely untapped SMB market that segment represents 68% of the market, but 70% have no telematics
  • Leading fleet management companies are moving clients towards a transaction-based self-service model
  • Integrating artificial intelligence algorithms provides opportunities for value-added fleet management services

A sub-set of the overall asset tracking market, the fleet tracking market represents those solutions that leverage various technologies (GPS, M2M/IoT, embedded and adjunct devices, on-board and remote computing, etc.) to provide solutions for tracking land-based commercial wheeled or tracked motor vehicles including trucks, trailers, vans, cars, special-purpose vehicles, and other fleet assets. Land-based fleet tracking also includes private cars, trucks, and vans used for business purposes. The fleet tracking market also includes air-based (drones, fixed-wing aircraft, and helicopters) and water-based craft (tankers, container vessels, ferries, etc.)

Historically speaking, the fleet tracking market has largely served two primary purposes: (1) improving operational efficiency and (2) supporting regulatory compliance. Regarding the latter, important metrics include location, average speed, acceleration/deceleration, incident reporting (such as when brakes are applied and duration), engine malfunctions, drive time, and other data useful for fulfilling both regulations as well as legal and business requirements in the event of a claim against services, condition of goods, damages or injury.

Regarding operational efficiency, the fleet tracking market is rapidly evolving to provide solutions to improve the ability for fleets to effectively fulfill their mission in the most cost-effective and safe manner possible, while maintaining client satisfaction and corporate goodwill. This includes everything from seamless payload/personnel transfer to proper accounting for care-of-custody, billing, and overall service fulfillment.

The broader scope of the fleet tracking market includes aviation machinery (including drones, planes, helicopters, and ground support equipment), railway equipment (locomotive, railcar, and support machinery), and shipping (government/military fleets, tankers, containers, etc.). Roadway and other land-based vehicles often operate in substantially different environmental conditions between industries and businesses. They also have different needs, constraints, and use cases than those of watercraft and aerial vehicles.

While the fleet tracking market has made great strides towards automation and ease of use for the fleet owner, commercial fleets remain largely unconnected today. To minimize the impact of interconnecting a fleet, leading fleet management companies such as Momentum IoT are reducing end-user friction through user-friendly, self-service fulfillment that is transaction-based and highly intuitive. This is moving the fleet tracking market from a higher cost and complex marketplace to one that is lower cost and simpler to manage.

Certain leading companies such as Spireon are looking beyond simply fleet tracking for compliance reasons, logistics, and asset monitoring. Data analytics is an important part of value-added fleet tracking solutions. By way of example, data associated with vehicle detention (such as fleet delays at location point of delivery), may be analyzed with data analytics programs to determine potential operational changes ranging from procedures, policies, asset, and personnel modifications.

Other leading companies are leveraging various IoT solutions such as Roambee, which utilizes automated smart sensors and analysis via cloud data analytics to track shipments and inventory on a dynamic basis including real-time location and condition reports. These types of solutions provide a direct benefit to enterprise and industrial customers as well as many indirect benefits across the entire supply chain including producers, distributors, wholesalers, retailers, and ultimately consumers.

In terms of self-driving vehicles, we see autonomous solutions fulfilling the role for what some fleets do today. This will occur initially in the area of shipping/logistics, beginning with short distance and regionally focused operations including food delivery, transportation, self-service errands, and product delivery. By way of example, Kroger has started trialing grocery delivery in 2019 with an autonomous vehicle solution. We see car and drone-based food delivery as the tip of the iceberg as the unmanned vehicle ecosystem evolves with goods transport as a high ROI solution for the autonomous systems market.

Key Topics Covered

1. Executive Summary

2. Introduction

2.1 Fleet Tracking Overview

2.1.1 Fleet Tracking Functions

2.1.2 Fleet Tracking Systems

2.2 Fleet Tracking Business Drivers

2.2.1 Connected Devices, Equipment, and Vehicles

2.3 Fleet Tracking Technologies and Integration

2.3.1 Onboard Vehicle Telematics

2.3.2 Fleet Tracking Computing

2.3.3 Fleet Tracking Devices

2.3.4 Command and Control

2.3.5 Other Technology Considerations

3. Fleet Tracking Solution Considerations

3.1 Tracking Vehicle Utilization

3.1.1 Hours of Service

3.1.2 Idle Time vs. Usage

3.1.3 Vehicle Lifecycle Management

3.2 Vehicle Monitoring

3.2.1 Tracking Location and Boundaries

3.2.2 Speed, Acceleration, and Proximity

3.3 Fleet Tracking Data Analysis and Analytics

3.3.1 Monitoring Location and Boundaries (Geo-fencing)

3.3.2 Maintenance and Services Notification

3.3.3 Cargo Safety: Food and Perishables

3.3.4 Logistics and Resource Utilization Optimizing Programs

3.3.5 Real-time and Predictive Business Decision Making

3.3.6 Vehicle and Support Systems Re-engineering

4. Fleet Tracking Solutions

4.1 Vehicle Tracking

4.2 Commercial Fleet Tracking

4.3 Autonomous Vehicle Fleets and Tracking

4.3.1 Navigation and Mapping

4.3.2 Machine Vision and Motion Planning

4.3.3 Trajectory Control

4.3.4 Video Camera and GPS System

4.3.5 Traffic Detection and Assistance

4.3.6 Sensing Systems: Ultrasonic, LIDAR, and Others

5. Fleet Tracking in Industry Verticals

5.1 Aviation and Aerospace

5.2 Automotive and Transportation Systems

5.3 Government (State and Local)

5.4 Robotics and Drones

6. Vendor Ecosystem and Company Analysis

6.1 Vendor Ecosystem

6.1.1 Original Equipment vs. OEM Vendors

6.1.2 Asset Leasing and Lending Companies

6.1.3 Vehicle Manufacturers

6.1.4 Hardware Providers (GPS, Devices, others)

6.1.5 Software and Application Developers

6.1.6 Service Providers including Fleet Management as a Service

6.2 Select Company Analysis

6.2.1 Azuga Fleet

6.2.2 Blackberry (Radar, QNX)

6.2.3 Carmalink

6.2.4 ClearPath GPS

6.2.5 DriveFactor (or CCC Drive)

6.2.6 Estrack

6.2.7 Fleet Safety Institute

6.2.8 Fleetilla

6.2.9 Fleetistics

6.2.10 FleetManager

6.2.11 FleetMind (Safe Fleet Holdings)

6.2.12 Fleetup

6.2.13 Geotab

6.2.14 Globalstar

6.2.15 Go Fleet

6.2.16 GPS Insight

6.2.17 GPS Trackit

6.2.18 GSAttrack (Global Satellite Engineering)

6.2.19 Gurtam

6.2.20 Inseego

6.2.21 IntouchGPS (GPSTrackit)

6.2.22 Lojack

6.2.23 Lytx

6.2.24 M2M in Motion

6.2.25 Mix Telematics

6.2.26 Momentum IoT

6.2.27 NexTraq (Michelin)

6.2.28 Omnitracs

6.2.29 Passtime

6.2.30 Pedigree Technologies

6.2.31 Raven Connected (KlashWerks Inc.)

6.2.32 Rhino Fleet

6.2.33 Roambee

6.2.34 SafeFleet

6.2.35 Samsara

6.2.36 Skybitz

6.2.37 Smart Path GPS

6.2.38 Spireon Inc.

6.2.39 Sprint Corporation

6.2.40 Teltrac Navman

6.2.41 Tenna

6.2.42 T-Mobile

6.2.43 TomTom International B.V.

6.2.44 Verizon Wireless

6.2.45 Vodafone Limited

6.2.46 Zonar Systems (Continental AG)

6.2.47 Zubie

7. Fleet Tracking Market Analysis and Forecasts 2020-2025

7.1 Global Asset Tracking Market

7.2 Fleet Tracking Market

7.2.1 Fleet Tracking Market Drivers

7.2.2 Fleet Tracking Industry Verticals and Business Types

7.2.3 Fleet Tracking Market Forecasts

7.2.4 Fleet Tracking Market by Non-Roadway Based Vehicle Type

7.3 Fleet Tracking Market by Unit Deployment

7.3.1 Fleet Tracking Unit Deployment by Fleet Management

8. Conclusions and Recommendations

For more information about this report visit https://www.researchandmarkets.com/r/xt5af9


Laura Wood, Senior Press Manager
For E.S.T Office Hours Call 1-917-300-0470
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For GMT Office Hours Call +353-1-416-8900


Laura Wood, Senior Press Manager
For E.S.T Office Hours Call 1-917-300-0470
For U.S./CAN Toll Free Call 1-800-526-8630
For GMT Office Hours Call +353-1-416-8900