Top 10 Mobility Technologies Market by Technology (Bluetooth, Wearable Technology, Mobile Augmented Reality, Wireless Gigabit, Cellular IoT, Mobile Biometric, Automotive V2X, Wireless Charging For Consumer Electronics) & Geography - Global Forecast to 2022
“Increasing demand for smart devices and technological advancements in wireless connectivity expected to drive the growth of the mobility technologies market during the forecast period”
The Top 10 Mobility Technologies Market - Global Forecast to 2022, the market is expected to grow at a significant rate between 2016 and 2022. This report covers the major mobility technologies such as cellular IoT, wireless gigabit, mobile augmented reality, wireless charging for consumer electronics, Bluetooth, automotive vehicle-to-everything, mobile biometric, land mobile radio, automated guided vehicle, and wearable technology, along with their market trends between 2016 and 2022.
“Rising consumer preferences for sophisticated gadgets and growing demand for connected living fueling the growth of the wearable technology market”
The emergence of wearable technology has transformed the outlook of computing on-the-go. The application areas for the wearable technology range from consumer durables and healthcare to enterprise, industrial, and so on. With the development in the technology, it is expected to have application in new verticals and increased applications in the existing verticals such as medical surgery. The key factors contributing to the growth of the wearable technology market include consumer preference for sophisticated gadgets, increasing growth prospects for next-generation displays in wearable devices, growing popularity of the Internet of Things (IoT) and connected devices, increase in demand for wearable fitness and medical devices, and development of key enabling technologies.
“Consumer preferences for wireless connectivity expected to boost the growth of the wireless charging market during the forecast period”
The wireless charging technology is used for the transmission of electrical current between two objects without any physical connection. The growing demand for wireless charging technology in consumer electronics can be attributed to its features that provide ease and convenience to the end users. Wireless charging has eliminated the use of cables for charging devices and has provided a convenient way to charge electronic devices wirelessly. The growth of the wireless charging market for consumer electronics is driven by factors such as its user friendliness, growing demand for smartphones, and its ability to charge multiple devices at the same time. The major restraints for the market growth include the lack of standards and interference of other electronic devices. The increasing efficiency of wireless charging devices and applications in new verticals are the key opportunities for the wireless charging market for consumer electronics.
“Growing demand for smartphones and wireless connectivity driving the growth of the Bluetooth market”
The adoption of Bluetooth is growing significantly with the advent of the Internet of Things (IoT), machine-to-machine communication, pervasive computing, and fog computing, wherein a large number of devices are required to communicate with each other. The proliferation of the network of wireless sensors, increasing adoption of emerging technologies, and mainstreaming of several smart consumer devices have led to the increase in adoption of the IoT. The consumer electronics, healthcare, and building automation industries have been revolutionized by the introduction of the IoT in the market. Various other IoT applications are also evolving such as connected cars and wearable electronics. These applications would further provide opportunities for the industry players with the help of a large and complex wireless connectivity ecosystem. The rising R&D investments and government funding in IoT-related technologies are expected to drive the growth of the Bluetooth market, especially in the U.S., China, Japan, Germany, South Korea, and the U.K.
The major players in the market for Top 10 mobility technologies include Qualcomm Inc. (U.S.), Sierra Wireless (Canada), Apple Inc. (U.S.), Samsung Electronics Corporation Ltd. (South Korea), Nuance Communication, Inc. (U.S.), Intel Corporation (U.S.), Texas Instruments (U.S.), Atmel Corporation (U.S.),, STMicroelectronics N.V. (Switzerland), Autotalks Limited (Israel), Harris Corporation (U.S.), Motorola Solutions, Inc. (U.S.), Daifuku Co., Ltd. (Japan), and Dematic GmbH & Co., KG. (Germany).
Research Coverage:
This research report categorizes the Top 10 mobility technologies market on the basis of vertical, industry, application, type, geography, and others. The report also discusses the major drivers, restraints, challenges, and opportunities pertaining to all the 10 market; along with their value chain analysis and the market ranking analysis of the major players in the market.
Reasons to Buy the Report:
The report would help the leaders/new entrants in this market in the following ways:
1. This report segments the Top 10 mobility technologies market comprehensively and provides the closest market size estimation for all subsegments across different regions.
2. The report would help stakeholders understand the pulse of the market and provide them with the information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The report also includes competitor ecosystem, new product launches and developments, partnerships, and mergers and acquisitions.
The Top 10 Mobility Technologies Market - Global Forecast to 2022, the market is expected to grow at a significant rate between 2016 and 2022. This report covers the major mobility technologies such as cellular IoT, wireless gigabit, mobile augmented reality, wireless charging for consumer electronics, Bluetooth, automotive vehicle-to-everything, mobile biometric, land mobile radio, automated guided vehicle, and wearable technology, along with their market trends between 2016 and 2022.
“Rising consumer preferences for sophisticated gadgets and growing demand for connected living fueling the growth of the wearable technology market”
The emergence of wearable technology has transformed the outlook of computing on-the-go. The application areas for the wearable technology range from consumer durables and healthcare to enterprise, industrial, and so on. With the development in the technology, it is expected to have application in new verticals and increased applications in the existing verticals such as medical surgery. The key factors contributing to the growth of the wearable technology market include consumer preference for sophisticated gadgets, increasing growth prospects for next-generation displays in wearable devices, growing popularity of the Internet of Things (IoT) and connected devices, increase in demand for wearable fitness and medical devices, and development of key enabling technologies.
“Consumer preferences for wireless connectivity expected to boost the growth of the wireless charging market during the forecast period”
The wireless charging technology is used for the transmission of electrical current between two objects without any physical connection. The growing demand for wireless charging technology in consumer electronics can be attributed to its features that provide ease and convenience to the end users. Wireless charging has eliminated the use of cables for charging devices and has provided a convenient way to charge electronic devices wirelessly. The growth of the wireless charging market for consumer electronics is driven by factors such as its user friendliness, growing demand for smartphones, and its ability to charge multiple devices at the same time. The major restraints for the market growth include the lack of standards and interference of other electronic devices. The increasing efficiency of wireless charging devices and applications in new verticals are the key opportunities for the wireless charging market for consumer electronics.
“Growing demand for smartphones and wireless connectivity driving the growth of the Bluetooth market”
The adoption of Bluetooth is growing significantly with the advent of the Internet of Things (IoT), machine-to-machine communication, pervasive computing, and fog computing, wherein a large number of devices are required to communicate with each other. The proliferation of the network of wireless sensors, increasing adoption of emerging technologies, and mainstreaming of several smart consumer devices have led to the increase in adoption of the IoT. The consumer electronics, healthcare, and building automation industries have been revolutionized by the introduction of the IoT in the market. Various other IoT applications are also evolving such as connected cars and wearable electronics. These applications would further provide opportunities for the industry players with the help of a large and complex wireless connectivity ecosystem. The rising R&D investments and government funding in IoT-related technologies are expected to drive the growth of the Bluetooth market, especially in the U.S., China, Japan, Germany, South Korea, and the U.K.
The major players in the market for Top 10 mobility technologies include Qualcomm Inc. (U.S.), Sierra Wireless (Canada), Apple Inc. (U.S.), Samsung Electronics Corporation Ltd. (South Korea), Nuance Communication, Inc. (U.S.), Intel Corporation (U.S.), Texas Instruments (U.S.), Atmel Corporation (U.S.),, STMicroelectronics N.V. (Switzerland), Autotalks Limited (Israel), Harris Corporation (U.S.), Motorola Solutions, Inc. (U.S.), Daifuku Co., Ltd. (Japan), and Dematic GmbH & Co., KG. (Germany).
Research Coverage:
This research report categorizes the Top 10 mobility technologies market on the basis of vertical, industry, application, type, geography, and others. The report also discusses the major drivers, restraints, challenges, and opportunities pertaining to all the 10 market; along with their value chain analysis and the market ranking analysis of the major players in the market.
Reasons to Buy the Report:
The report would help the leaders/new entrants in this market in the following ways:
1. This report segments the Top 10 mobility technologies market comprehensively and provides the closest market size estimation for all subsegments across different regions.
2. The report would help stakeholders understand the pulse of the market and provide them with the information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The report also includes competitor ecosystem, new product launches and developments, partnerships, and mergers and acquisitions.
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 REPORT DESCRIPTION
1.3 STUDY SCOPE
1.3.1 MARKETS COVERED
1.3.2 YEARS CONSIDERED FOR THIS STUDY
1.4 CURRENCY
1.5 STAKEHOLDERS
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Breakdown of primaries
2.2 MARKET SIZE ESTIMATION
2.2.1 BOTTOM-UP APPROACH
2.2.2 TOP-DOWN APPROACH
2.3 MARKET BREAKDOWN & DATA TRIANGULATION
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 ATTRACTIVE MARKET OPPORTUNITIES IN MOBILE AUGMENTED REALITY MARKET
4.2 DISPLAY DEVICES EXPECTED TO DOMINATE THE WIRELESS GIGABIT MARKET BETWEEN 2016 AND 2022
4.3 VOICE RECOGNITION EXPECTED TO GROW AT HIGHEST RATE IN MOBILE BIOMETRIC MARKET
4.4 APPLICATION AND REGION SNAPSHOT OF AUTOMOTIVE V2X MARKET
4.5 MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE IN CELLULAR IOT MARKET BETWEEN 2016 AND 2022
5 MOBILE AUGMENTED REALITY MARKET
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Decline in prices of hardware components
5.2.1.2 Growing interest of large tech companies in augmented reality
5.2.2 RESTRAINTS
5.2.2.1 Development of AR technology dependent on advancements in computing and digital networks
5.2.3 OPPORTUNITIES
5.2.3.1 Increasing adoption of 3D cameras for the generation of 3D models of real objects
5.2.4 CHALLENGES
5.2.4.1 Low adoption rate due to privacy issues and complexities associated with the design
5.3 MOBILE AUGMENTED REALITY MARKET, BY COMPONENT
5.3.1 HARDWARE
5.3.2 SOFTWARE
5.4 MOBILE AUGMENTED REALITY MARKET, BY APPLICATION
5.4.1 SMARTPHONES
5.4.2 TABLETS
5.4.3 PERSONAL DIGITAL ASSISTANT AND GAMING CONSOLE
5.4.4 SMART GLASSES
5.4.5 WEARABLE
5.5 MOBILE AUGMENTED REALITY MARKET, BY VERTICAL
5.5.1 CONSUMER
5.5.2 AEROSPACE AND DEFENSE
5.5.3 MEDICAL
5.5.4 COMMERCIAL
5.5.5 INDUSTRIAL
5.6 GEOGRAPHIC ANALYSIS
5.6.1 NORTH AMERICA
5.6.2 EUROPE
5.6.3 APAC
5.6.4 ROW
5.7 COMPETITIVE LANDSCAPE
5.7.1 RANKING OF PLAYERS
6 WIRELESS GIGABIT MARKET
6.1 INTRODUCTION
6.2 MARKET DYNAMICS
6.2.1 DRIVERS
6.2.1.1 Constant innovations and advancements in the technology
6.2.1.2 Launch of new spectrums (frequency bands) and increasing penetration into emerging economies
6.2.2 RESTRAINTS
6.2.2.1 Short operating range of WiGig products
6.2.3 OPPORTUNITIES
6.2.3.1 Rapid growth of next-generation computing devices
6.2.4 CHALLENGES
6.2.4.1 High frequency of internal substitution
6.3 WIRELESS GIGABIT MARKET, BY PRODUCT
6.3.1 DISPLAY DEVICES
6.3.2 NETWORK INFRASTRUCTURE DEVICES
6.4 WIRELESS GIGABIT MARKET, BY MODULE
6.4.1 SYSTEM-ON-CHIP
6.4.2 INTEGRATED CIRCUIT CHIP
6.5 WIRELESS GIGABIT MARKET, BY APPLICATION
6.5.1 CONSUMER ELECTRONICS
6.5.2 NETWORKING
6.5.3 COMMERCIAL
6.6 GEOGRAPHIC ANALYSIS
6.6.1 NORTH AMERICA
6.6.2 EUROPE
6.6.3 APAC
6.6.4 ROW
6.7 COMPETITIVE LANDSCAPE
6.7.1 RANKING OF PLAYERS
7 AUTOMOTIVE VEHICLE–TO–EVERYTHING MARKET
7.1 INTRODUCTION
7.2 MARKET DYNAMICS
7.2.1 DRIVERS
7.2.1.1 Demand for real-time traffic and incident alerts for increasing public safety
7.2.1.2 Increasing financial aid from various governments for better traffic management
7.2.1.3 Increasing environmental concerns to lead to the adoption of connected vehicles
7.2.2 RESTRAINTS
7.2.2.1 Lack of cellular connectivity coverage in developing countries
7.2.2.2 Cost burden on consumers
7.2.2.3 Lack of infrastructure
7.2.3 OPPORTUNITIES
7.2.3.1 Autonomous cars to transform automotive industry
7.2.3.2 Predictive maintenance using real-time monitoring
7.2.4 CHALLENGES
7.2.4.1 Lack of standardization
7.2.4.2 Lack of willingness to adopt new technology
7.2.4.3 Security of data generated by vehicles
7.3 AUTOMOTIVE VEHICLE–TO–EVERYTHING (V2X) MARKET, BY OFFERING
7.3.1 HARDWARE
7.3.2 SOFTWARE
7.3.2.1 Device management
7.3.2.2 Application management
7.3.2.3 Network management
7.4 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY COMMUNICATION TYPE
7.4.1 VEHICLE-TO-VEHICLE (V2V)
7.4.2 VEHICLE-TO-INFRASTRUCTURE (V2I)
7.4.3 VEHICLE-TO-PEDESTRIAN (V2P)
7.4.4 VEHICLE-TO-HOME (V2H)
7.4.5 VEHICLE-TO-GRID (V2G)
7.4.6 VEHICLE-TO-NETWORK (V2N)
7.5 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY VEHICLE TYPE
7.5.1 PASSENGER VEHICLES
7.5.2 COMMERCIAL VEHICLES
7.6 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY CONNECTIVITY TYPE
7.6.1 DEDICATED SHORT RANGE COMMUNICATION (DSRC) CONNECTIVITY
7.6.2 CELLULAR CONNECTIVITY
7.7 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY APPLICATION
7.7.1 AUTOMATED DRIVER ASSISTANCE
7.7.2 INTELLIGENT TRAFFIC SYSTEMS
7.7.3 EMERGENCY VEHICLE NOTIFICATION
7.7.4 PASSENGER INFORMATION SYSTEM
7.7.5 FLEET & ASSET MANAGEMENT
7.7.6 PARKING MANAGEMENT SYSTEM
7.7.7 REMOTE MONITORING & DIAGNOSTICS
7.7.8 PREDICTIVE MAINTENANCE
7.8 GEOGRAPHIC ANALYSIS
7.8.1 NORTH AMERICA
7.8.2 EUROPE
7.8.3 APAC
7.8.4 ROW
7.9 COMPETITIVE LANDSCAPE
7.9.1 RANKING OF PLAYERS
8 MOBILE BIOMETRIC MARKET
8.1 INTRODUCTION
8.2 MARKET DYNAMICS
8.2.1 DRIVERS
8.2.1.1 Government initiatives to promote the adoption of biometric technology
8.2.1.2 Large-scale adoption of electronic verification systems
8.2.2 RESTRAINTS
8.2.2.1 Concerns regarding privacy and data breach
8.2.3 OPPORTUNITIES
8.2.3.1 Application of mobile biometrics in e-commerce and online gaming
8.2.4 CHALLENGES
8.2.4.1 Protection of biometric data
8.3 MOBILE BIOMETRIC MARKET, BY COMPONENT
8.3.1 HARDWARE COMPONENTS
8.3.1.1 Fingerprint readers
8.3.1.2 Scanners
8.3.1.3 Cameras
8.3.1.4 Others
8.3.2 SOFTWARE
8.4 MOBILE BIOMETRICS MARKET, BY AUTHENTICATION MODE
8.4.1 SINGLE-FACTOR AUTHENTICATION MODE
8.4.1.1 Fingerprint recognition
8.4.1.2 Voice recognition
8.4.1.3 Facial recognition
8.4.1.4 Iris recognition
8.4.1.5 Vein recognition
8.4.1.6 Retina scan system
8.4.1.7 Others
8.4.2 MULTI-FACTOR AUTHENTICATION MODE
8.5 MOBILE BIOMETRIC MARKET, BY INDUSTRY
8.5.1 CONSUMER ELECTRONICS
8.5.2 HEALTHCARE
8.5.3 FINANCE & BANKING
8.5.4 TRAVEL & IMMIGRATION
8.5.5 GOVERNMENT/LAW ENFORCEMENT & FORENSICS
8.5.6 MILITARY & DEFENSE
8.5.7 OTHERS
8.6 GEOGRAPHIC ANALYSIS
8.6.1 NORTH AMERICA
8.6.2 EUROPE
8.6.3 APAC
8.6.4 ROW
8.7 COMPETITIVE LANDSCAPE
8.7.1 RANKING OF PLAYERS
9 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS
9.1 INTRODUCTION
9.2 MARKET DYNAMICS
9.2.1 DRIVERS
9.2.1.1 User friendliness of the wireless charging technology
9.2.1.2 Huge demand expected for wireless charging-enabled smartphones
9.2.1.3 Ability to charge multiple devices simultaneously
9.2.1.4 Consumer inclination toward wireless connectivity
9.2.2 RESTRAINTS
9.2.2.1 Interference with other electronic devices likely to create a hurdle for the market growth
9.2.3 OPPORTUNITIES
9.2.3.1 Growth prospects for new applications leading to the development of new products
9.2.4 CHALLENGES
9.2.4.1 Compatibility issues restricting the adoption of wireless charging devices
9.2.4.2 Inadequate government regulations for the wireless charging market
9.3 WIRELESS CHARGING MARKET IN CONSUMER ELECTRONICS, BY DEVICE
9.3.1 SMARTPHONES
9.3.2 COMPUTING DEVICES
9.3.3 WEARABLE DEVICES
9.3.4 OTHERS
9.4 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY TECHNOLOGY
9.4.1 INDUCTIVE TECHNOLOGY
9.4.2 RADIATION TECHNOLOGY
9.4.3 OTHER TECHNOLOGIES
9.4.3.1 Radio frequency (RF) technology
9.4.3.2 Laser beam technology
9.5 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY RANGE
9.5.1 SHORT RANGE
9.5.2 MEDIUM RANGE
9.5.3 LONG RANGE
9.6 GEOGRAPHIC ANALYSIS
9.6.1 NORTH AMERICA
9.6.2 EUROPE
9.6.3 APAC
9.6.4 ROW
9.7 COMPETITIVE LANDSCAPE
9.7.1 RANKING OF PLAYERS
10 CELLULAR IOT MARKET
10.1 INTRODUCTION
10.2 MARKET DYNAMICS
10.2.1 DRIVERS
10.2.1.1 Rising demand for extended network coverage
10.2.1.2 Rising demand for cellular connectivity in the automotive sector
10.2.2 RESTRAINTS
10.2.2.1 Technology fragmentation
10.2.3 OPPORTUNITIES
10.2.3.1 Growing adoption of smart technologies and distributed applications
10.2.4 CHALLENGES
10.2.4.1 Developing common protocols and standards across the IoT platform
10.3 CELLULAR IOT MARKET, BY OFFERING
10.3.1 HARDWARE
10.3.2 SOFTWARE
10.4 CELLULAR IOT MARKET, BY TYPE
10.4.1 2G
10.4.2 3G
10.4.3 4G
10.4.4 LTE-M
10.4.5 NB-LTE-M
10.4.6 NB-IOT
10.4.7 5G
10.5 CELLULAR IOT MARKET, BY END-USE APPLICATION
10.5.1 AGRICULTURE
10.5.2 ENVIRONMENTAL MONITORING
10.5.3 AUTOMOTIVE AND TRANSPORTATION
10.5.4 ENERGY
10.5.5 HEALTHCARE
10.5.6 RETAIL
10.5.7 SMART CITY
10.5.8 CONSUMER ELECTRONICS
10.5.9 BUILDING AUTOMATION
10.5.10 MANUFACTURING
10.6 GEOGRAPHIC ANALYSIS
10.6.1 NORTH AMERICA
10.6.2 EUROPE
10.6.3 APAC
10.6.4 ROW
10.7 COMPETITIVE LANDSCAPE
10.7.1 RANKING OF PLAYERS
11 LAND MOBILE RADIO MARKET
11.1 INTRODUCTION
11.2 MARKET DYNAMICS
11.2.1 DRIVERS
11.2.1.1 Growing significance of efficient critical communication operations
11.2.1.2 Rising demand for inexpensive and reliable land mobile radios
11.2.1.3 Application of land mobile radios into diverse industries, majorly in military & defense, law enforcement, and aviation
11.2.1.4 Transition of land mobile radios from analog to digital
11.2.2 RESTRAINTS
11.2.2.1 Spectrum shortages limiting industry expansion and limited channel capacity
11.2.2.2 High costs for building LMRs
11.2.3 OPPORTUNITIES
11.2.3.1 Requirement of voice encryption for secure communication
11.2.3.2 Dynamic spectrum access opportunities for LMRs
11.2.4 CHALLENGES
11.2.4.1 Narrowbanding public safety communication channels
11.2.4.2 Growth of IoT (Internet of Things) devices
11.3 LAND MOBILE RADIO MARKET, BY TYPE
11.4 LAND MOBILE RADIO MARKET, BY TECHNOLOGY
11.4.1 DIGITAL LAND MOBILE RADIO
11.4.2 ANALOG LAND MOBILE RADIO
11.5 LAND MOBILE RADIO MARKET, BY APPLICATION
11.5.1 PUBLIC SAFETY
11.5.2 COMMERCIAL
11.6 GEOGRAPHIC ANALYSIS
11.6.1 NORTH AMERICA
11.6.2 EUROPE
11.6.3 APAC
11.6.4 ROW
11.7 COMPETITIVE LANDSCAPE
11.7.1 RANKING OF PLAYERS
12 AUTOMATED GUIDED VEHICLES
12.1 INTRODUCTION
12.2 MARKET DYNAMICS
12.2.1 DRIVERS
12.2.1.1 Growing demand for automation and material handling equipment in various process industries
12.2.1.2 Rising demand for automation is leading to new avenues for AGVs
12.2.1.3 Replacement of conventional batteries with lithium-ion based batteries
12.2.1.4 High labor cost, owing to scarcity of labor
12.2.1.5 Growing emphasis on workplace safety and increased productivity by industries
12.2.2 RESTRAINTS
12.2.2.1 High capital investments
12.2.2.2 High switching cost
12.2.3 OPPORTUNITIES
12.2.3.1 Emergence of flexible manufacturing systems (FMS)
12.2.3.2 Increased demand for intelligent and customized automated guided vehicles
12.2.4 CHALLENGES
12.2.4.1 Need to reduce market delivery time
12.3 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE
12.3.1 UNIT LOAD CARRIER
12.3.2 TOW VEHICLE
12.3.3 PALLET TRUCK
12.3.4 ASSEMBLY LINE VEHICLE
12.3.5 OTHERS
12.4 AUTOMATED GUIDED VEHICLE MARKET, BY NAVIGATION TECHNOLOGY
12.4.1 LASER GUIDANCE
12.4.2 MAGNETIC GUIDANCE
12.4.3 INDUCTIVE GUIDANCE
12.4.4 OPTICAL TAPE GUIDANCE
12.4.5 OTHERS
12.5 AUTOMATED GUIDED VEHICLE MARKET, BY BATTERY TYPE
12.5.1 LEAD
12.5.2 NICKEL-BASED
12.5.3 LITHIUM-ION
12.6 AUTOMATED GUIDED VEHICLE MARKET, BY INDUSTRY
12.6.1 AUTOMOTIVE
12.6.2 MANUFACTURING
12.6.3 FOOD & BEVERAGES
12.6.4 AEROSPACE
12.6.5 HEALTHCARE
12.6.6 LOGISTICS
12.6.7 RETAIL
12.6.8 OTHERS
12.7 AUTOMATED GUIDED VEHICLE MARKET, BY APPLICATION
12.7.1 TRANSPORTATION
12.7.2 DISTRIBUTION
12.7.3 STORAGE
12.7.4 ASSEMBLY
12.7.5 PACKAGING
12.7.6 OTHERS
12.8 GEOGRAPHIC ANALYSIS
12.8.1 NORTH AMERICA
12.8.2 EUROPE
12.8.3 APAC
12.8.4 ROW
12.9 COMPETITIVE LANDSCAPE
12.9.1 RANKING OF PLAYERS
13 WEARABLE TECHNOLOGY MARKET
13.1 INTRODUCTION
13.2 MARKET DYNAMICS
13.2.1 DRIVERS
13.2.1.1 Consumer preference for sophisticated gadgets
13.2.1.2 Increasing growth prospects of next-generation displays in wearable devices
13.2.1.3 Growing popularity of Internet of Things and connected devices
13.2.1.4 Increase in demand of wearables in fitness and medical devices
13.2.1.5 Development of key enabling technologies
13.2.2 RESTRAINTS
13.2.2.1 Power consumption and limited battery life
13.2.2.2 Shorter life cycle of the consumer electronics sector
13.2.3 OPPORTUNITIES
13.2.3.1 Adoption of wearables in multiple application areas
13.2.3.2 Multi-featured and hybrid application mobile devices
13.2.4 CHALLENGES
13.2.4.1 High initial costs
13.2.4.2 Unaddressed regulatory issues & vulnerability of healthcare information
13.3 WEARABLE TECHNOLOGY MARKET, BY TYPE
13.3.1 WEARABLE SMART TEXTILE
13.3.1.1 Active smart textiles
13.3.1.2 Passive smart textiles
13.3.1.3 Ultra-smart textiles
13.3.2 WEARABLE PRODUCTS & DEVICES (NON-TEXTILES)
13.4 WEARABLE TECHNOLOGY MARKET, BY PRODUCT
13.4.1 WRIST WEAR
13.4.1.1 Smartwatches
13.4.1.2 Wristbands
13.4.2 HEADWEAR & EYEWEAR
13.4.2.1 Augmented Reality headsets
13.4.2.2 Virtual Reality headsets
13.4.2.3 Others
13.4.3 FOOTWEAR
13.4.3.1 Casual Footwear
13.4.3.2 Special-Purpose Footwear
13.4.4 NECKWEAR
13.4.4.1 Fashion and Jewelry
13.4.4.2 Ties and Collars
13.4.5 BODYWEAR
13.4.5.1 Inner Wear
13.4.5.2 Fashion & Apparel
13.4.5.3 Armwear & Legwear
13.4.6 OTHER WEARABLE TECHNOLOGIES
13.4.6.1 Ring Scanners
13.4.6.2 Bodyworn Cameras
13.4.6.3 Internables/Implantables
13.5 WEARABLE TECHNOLOGY MARKET, BY APPLICATION
13.5.1 CONSUMER ELECTRONICS
13.5.1.1 Infotainment & Multimedia
13.5.1.2 Garments & Fashion
13.5.1.3 MultiFunction
13.5.2 HEALTHCARE
13.5.2.1 Clinical applications
13.5.2.2 Nonclinical applications
13.5.3 ENTERPRISE & INDUSTRIAL APPLICATION
13.5.3.1 Logistics, Packaging, & Warehouse
13.5.3.2 Other Industrial Applications
13.5.4 OTHER APPLICATIONS
13.6 GEOGRAPHIC ANALYSIS
13.6.1 AMERICAS
13.6.2 EUROPE
13.6.3 APAC
13.6.4 ROW
13.7 COMPETITIVE LANDSCAPE
13.7.1 RANKING OF PLAYERS
14 BLUETOOTH
14.1 INTRODUCTION
14.2 MARKET DYNAMICS
14.2.1 DRIVERS
14.2.1.1 Growing demand for smartphones and other wireless connectivity devices
14.2.1.2 Increasing market for cloud computing and IoT
14.2.1.3 Increasing demand for low-power wide-area (LPWA) networks
14.2.2 RESTRAINTS
14.2.2.1 Lack of uniform communication standards
14.2.2.2 Interference with other electromagnetic sources, physical objects, and layered structure
14.2.3 OPPORTUNITIES
14.2.3.1 Increased government funding for fast evolution of Internet of Things
14.2.3.2 Emerging need for cross-domain applications
14.2.4 CHALLENGES
14.2.4.1 Need for better security of information
14.2.4.2 Trade-off between features such as data rates, power consumption, and range for various wireless technologies
14.3 BLUETOOTH MARKET, BY TYPE
14.3.1 BLUETOOTH 2.0 AND 3.0
14.3.2 BLUETOOTH SMART
14.3.3 BLUETOOTH SMART/WI-FI
14.3.4 BLUETOOTH SMART/ANT+
14.4 BLUETOOTH MARKET, BY APPLICATION
14.4.1 AUTOMOTIVE AND TRANSPORTATION
14.4.2 CONSUMER ELECTRONICS
14.4.3 HEALTHCARE
14.4.4 BUILDING AUTOMATION
14.4.5 INDUSTRIAL
14.4.6 WEARABLE DEVICES
14.5 GEOGRAPHIC ANALYSIS
14.5.1 NORTH AMERICA
14.5.2 EUROPE
14.5.3 APAC
14.5.4 ROW
14.6 COMPETITIVE LANDSCAPE
14.6.1 RANKING OF PLAYERS
15 COMPANY PROFILES
15.1 INTRODUCTION
(Business Overview, Products & Services, Key Insights, Recent Developments, SWOT Analysis, Ratio Analysis, MnM View)*
15.2 QUALCOMM, INC.
15.3 SIERRA WIRELESS
15.4 APPLE, INC.
15.5 SAMSUNG ELECTRONICS CO., LTD.
15.6 NUANCE COMMUNICATION, INC.
15.7 INTEL CORPORATION
15.8 TEXAS INSTRUMENTS
15.9 ATMEL CORPORATION
15.10 STMICROELECTRONICS N.V.
15.11 AUTOTALKS LTD
15.12 HARRIS CORPORATION
15.13 MOTOROLA SOLUTIONS, INC.
15.14 DAIFUKU CO., LTD.
15.15 DEMATIC GMBH & CO. KG
*Details on Business Overview, Products & Services, Key Insights, Recent Developments, SWOT Analysis, MnM View might not be captured in case of unlisted companies.
16 APPENDIX
16.1 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
16.2 INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE
16.3 AVAILABLE CUSTOMIZATIONS
16.4 AUTHOR DETAILS
1.1 OBJECTIVES OF THE STUDY
1.2 REPORT DESCRIPTION
1.3 STUDY SCOPE
1.3.1 MARKETS COVERED
1.3.2 YEARS CONSIDERED FOR THIS STUDY
1.4 CURRENCY
1.5 STAKEHOLDERS
2 RESEARCH METHODOLOGY
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 Key data from secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Breakdown of primaries
2.2 MARKET SIZE ESTIMATION
2.2.1 BOTTOM-UP APPROACH
2.2.2 TOP-DOWN APPROACH
2.3 MARKET BREAKDOWN & DATA TRIANGULATION
3 EXECUTIVE SUMMARY
4 PREMIUM INSIGHTS
4.1 ATTRACTIVE MARKET OPPORTUNITIES IN MOBILE AUGMENTED REALITY MARKET
4.2 DISPLAY DEVICES EXPECTED TO DOMINATE THE WIRELESS GIGABIT MARKET BETWEEN 2016 AND 2022
4.3 VOICE RECOGNITION EXPECTED TO GROW AT HIGHEST RATE IN MOBILE BIOMETRIC MARKET
4.4 APPLICATION AND REGION SNAPSHOT OF AUTOMOTIVE V2X MARKET
4.5 MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE IN CELLULAR IOT MARKET BETWEEN 2016 AND 2022
5 MOBILE AUGMENTED REALITY MARKET
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Decline in prices of hardware components
5.2.1.2 Growing interest of large tech companies in augmented reality
5.2.2 RESTRAINTS
5.2.2.1 Development of AR technology dependent on advancements in computing and digital networks
5.2.3 OPPORTUNITIES
5.2.3.1 Increasing adoption of 3D cameras for the generation of 3D models of real objects
5.2.4 CHALLENGES
5.2.4.1 Low adoption rate due to privacy issues and complexities associated with the design
5.3 MOBILE AUGMENTED REALITY MARKET, BY COMPONENT
5.3.1 HARDWARE
5.3.2 SOFTWARE
5.4 MOBILE AUGMENTED REALITY MARKET, BY APPLICATION
5.4.1 SMARTPHONES
5.4.2 TABLETS
5.4.3 PERSONAL DIGITAL ASSISTANT AND GAMING CONSOLE
5.4.4 SMART GLASSES
5.4.5 WEARABLE
5.5 MOBILE AUGMENTED REALITY MARKET, BY VERTICAL
5.5.1 CONSUMER
5.5.2 AEROSPACE AND DEFENSE
5.5.3 MEDICAL
5.5.4 COMMERCIAL
5.5.5 INDUSTRIAL
5.6 GEOGRAPHIC ANALYSIS
5.6.1 NORTH AMERICA
5.6.2 EUROPE
5.6.3 APAC
5.6.4 ROW
5.7 COMPETITIVE LANDSCAPE
5.7.1 RANKING OF PLAYERS
6 WIRELESS GIGABIT MARKET
6.1 INTRODUCTION
6.2 MARKET DYNAMICS
6.2.1 DRIVERS
6.2.1.1 Constant innovations and advancements in the technology
6.2.1.2 Launch of new spectrums (frequency bands) and increasing penetration into emerging economies
6.2.2 RESTRAINTS
6.2.2.1 Short operating range of WiGig products
6.2.3 OPPORTUNITIES
6.2.3.1 Rapid growth of next-generation computing devices
6.2.4 CHALLENGES
6.2.4.1 High frequency of internal substitution
6.3 WIRELESS GIGABIT MARKET, BY PRODUCT
6.3.1 DISPLAY DEVICES
6.3.2 NETWORK INFRASTRUCTURE DEVICES
6.4 WIRELESS GIGABIT MARKET, BY MODULE
6.4.1 SYSTEM-ON-CHIP
6.4.2 INTEGRATED CIRCUIT CHIP
6.5 WIRELESS GIGABIT MARKET, BY APPLICATION
6.5.1 CONSUMER ELECTRONICS
6.5.2 NETWORKING
6.5.3 COMMERCIAL
6.6 GEOGRAPHIC ANALYSIS
6.6.1 NORTH AMERICA
6.6.2 EUROPE
6.6.3 APAC
6.6.4 ROW
6.7 COMPETITIVE LANDSCAPE
6.7.1 RANKING OF PLAYERS
7 AUTOMOTIVE VEHICLE–TO–EVERYTHING MARKET
7.1 INTRODUCTION
7.2 MARKET DYNAMICS
7.2.1 DRIVERS
7.2.1.1 Demand for real-time traffic and incident alerts for increasing public safety
7.2.1.2 Increasing financial aid from various governments for better traffic management
7.2.1.3 Increasing environmental concerns to lead to the adoption of connected vehicles
7.2.2 RESTRAINTS
7.2.2.1 Lack of cellular connectivity coverage in developing countries
7.2.2.2 Cost burden on consumers
7.2.2.3 Lack of infrastructure
7.2.3 OPPORTUNITIES
7.2.3.1 Autonomous cars to transform automotive industry
7.2.3.2 Predictive maintenance using real-time monitoring
7.2.4 CHALLENGES
7.2.4.1 Lack of standardization
7.2.4.2 Lack of willingness to adopt new technology
7.2.4.3 Security of data generated by vehicles
7.3 AUTOMOTIVE VEHICLE–TO–EVERYTHING (V2X) MARKET, BY OFFERING
7.3.1 HARDWARE
7.3.2 SOFTWARE
7.3.2.1 Device management
7.3.2.2 Application management
7.3.2.3 Network management
7.4 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY COMMUNICATION TYPE
7.4.1 VEHICLE-TO-VEHICLE (V2V)
7.4.2 VEHICLE-TO-INFRASTRUCTURE (V2I)
7.4.3 VEHICLE-TO-PEDESTRIAN (V2P)
7.4.4 VEHICLE-TO-HOME (V2H)
7.4.5 VEHICLE-TO-GRID (V2G)
7.4.6 VEHICLE-TO-NETWORK (V2N)
7.5 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY VEHICLE TYPE
7.5.1 PASSENGER VEHICLES
7.5.2 COMMERCIAL VEHICLES
7.6 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY CONNECTIVITY TYPE
7.6.1 DEDICATED SHORT RANGE COMMUNICATION (DSRC) CONNECTIVITY
7.6.2 CELLULAR CONNECTIVITY
7.7 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, BY APPLICATION
7.7.1 AUTOMATED DRIVER ASSISTANCE
7.7.2 INTELLIGENT TRAFFIC SYSTEMS
7.7.3 EMERGENCY VEHICLE NOTIFICATION
7.7.4 PASSENGER INFORMATION SYSTEM
7.7.5 FLEET & ASSET MANAGEMENT
7.7.6 PARKING MANAGEMENT SYSTEM
7.7.7 REMOTE MONITORING & DIAGNOSTICS
7.7.8 PREDICTIVE MAINTENANCE
7.8 GEOGRAPHIC ANALYSIS
7.8.1 NORTH AMERICA
7.8.2 EUROPE
7.8.3 APAC
7.8.4 ROW
7.9 COMPETITIVE LANDSCAPE
7.9.1 RANKING OF PLAYERS
8 MOBILE BIOMETRIC MARKET
8.1 INTRODUCTION
8.2 MARKET DYNAMICS
8.2.1 DRIVERS
8.2.1.1 Government initiatives to promote the adoption of biometric technology
8.2.1.2 Large-scale adoption of electronic verification systems
8.2.2 RESTRAINTS
8.2.2.1 Concerns regarding privacy and data breach
8.2.3 OPPORTUNITIES
8.2.3.1 Application of mobile biometrics in e-commerce and online gaming
8.2.4 CHALLENGES
8.2.4.1 Protection of biometric data
8.3 MOBILE BIOMETRIC MARKET, BY COMPONENT
8.3.1 HARDWARE COMPONENTS
8.3.1.1 Fingerprint readers
8.3.1.2 Scanners
8.3.1.3 Cameras
8.3.1.4 Others
8.3.2 SOFTWARE
8.4 MOBILE BIOMETRICS MARKET, BY AUTHENTICATION MODE
8.4.1 SINGLE-FACTOR AUTHENTICATION MODE
8.4.1.1 Fingerprint recognition
8.4.1.2 Voice recognition
8.4.1.3 Facial recognition
8.4.1.4 Iris recognition
8.4.1.5 Vein recognition
8.4.1.6 Retina scan system
8.4.1.7 Others
8.4.2 MULTI-FACTOR AUTHENTICATION MODE
8.5 MOBILE BIOMETRIC MARKET, BY INDUSTRY
8.5.1 CONSUMER ELECTRONICS
8.5.2 HEALTHCARE
8.5.3 FINANCE & BANKING
8.5.4 TRAVEL & IMMIGRATION
8.5.5 GOVERNMENT/LAW ENFORCEMENT & FORENSICS
8.5.6 MILITARY & DEFENSE
8.5.7 OTHERS
8.6 GEOGRAPHIC ANALYSIS
8.6.1 NORTH AMERICA
8.6.2 EUROPE
8.6.3 APAC
8.6.4 ROW
8.7 COMPETITIVE LANDSCAPE
8.7.1 RANKING OF PLAYERS
9 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS
9.1 INTRODUCTION
9.2 MARKET DYNAMICS
9.2.1 DRIVERS
9.2.1.1 User friendliness of the wireless charging technology
9.2.1.2 Huge demand expected for wireless charging-enabled smartphones
9.2.1.3 Ability to charge multiple devices simultaneously
9.2.1.4 Consumer inclination toward wireless connectivity
9.2.2 RESTRAINTS
9.2.2.1 Interference with other electronic devices likely to create a hurdle for the market growth
9.2.3 OPPORTUNITIES
9.2.3.1 Growth prospects for new applications leading to the development of new products
9.2.4 CHALLENGES
9.2.4.1 Compatibility issues restricting the adoption of wireless charging devices
9.2.4.2 Inadequate government regulations for the wireless charging market
9.3 WIRELESS CHARGING MARKET IN CONSUMER ELECTRONICS, BY DEVICE
9.3.1 SMARTPHONES
9.3.2 COMPUTING DEVICES
9.3.3 WEARABLE DEVICES
9.3.4 OTHERS
9.4 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY TECHNOLOGY
9.4.1 INDUCTIVE TECHNOLOGY
9.4.2 RADIATION TECHNOLOGY
9.4.3 OTHER TECHNOLOGIES
9.4.3.1 Radio frequency (RF) technology
9.4.3.2 Laser beam technology
9.5 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY RANGE
9.5.1 SHORT RANGE
9.5.2 MEDIUM RANGE
9.5.3 LONG RANGE
9.6 GEOGRAPHIC ANALYSIS
9.6.1 NORTH AMERICA
9.6.2 EUROPE
9.6.3 APAC
9.6.4 ROW
9.7 COMPETITIVE LANDSCAPE
9.7.1 RANKING OF PLAYERS
10 CELLULAR IOT MARKET
10.1 INTRODUCTION
10.2 MARKET DYNAMICS
10.2.1 DRIVERS
10.2.1.1 Rising demand for extended network coverage
10.2.1.2 Rising demand for cellular connectivity in the automotive sector
10.2.2 RESTRAINTS
10.2.2.1 Technology fragmentation
10.2.3 OPPORTUNITIES
10.2.3.1 Growing adoption of smart technologies and distributed applications
10.2.4 CHALLENGES
10.2.4.1 Developing common protocols and standards across the IoT platform
10.3 CELLULAR IOT MARKET, BY OFFERING
10.3.1 HARDWARE
10.3.2 SOFTWARE
10.4 CELLULAR IOT MARKET, BY TYPE
10.4.1 2G
10.4.2 3G
10.4.3 4G
10.4.4 LTE-M
10.4.5 NB-LTE-M
10.4.6 NB-IOT
10.4.7 5G
10.5 CELLULAR IOT MARKET, BY END-USE APPLICATION
10.5.1 AGRICULTURE
10.5.2 ENVIRONMENTAL MONITORING
10.5.3 AUTOMOTIVE AND TRANSPORTATION
10.5.4 ENERGY
10.5.5 HEALTHCARE
10.5.6 RETAIL
10.5.7 SMART CITY
10.5.8 CONSUMER ELECTRONICS
10.5.9 BUILDING AUTOMATION
10.5.10 MANUFACTURING
10.6 GEOGRAPHIC ANALYSIS
10.6.1 NORTH AMERICA
10.6.2 EUROPE
10.6.3 APAC
10.6.4 ROW
10.7 COMPETITIVE LANDSCAPE
10.7.1 RANKING OF PLAYERS
11 LAND MOBILE RADIO MARKET
11.1 INTRODUCTION
11.2 MARKET DYNAMICS
11.2.1 DRIVERS
11.2.1.1 Growing significance of efficient critical communication operations
11.2.1.2 Rising demand for inexpensive and reliable land mobile radios
11.2.1.3 Application of land mobile radios into diverse industries, majorly in military & defense, law enforcement, and aviation
11.2.1.4 Transition of land mobile radios from analog to digital
11.2.2 RESTRAINTS
11.2.2.1 Spectrum shortages limiting industry expansion and limited channel capacity
11.2.2.2 High costs for building LMRs
11.2.3 OPPORTUNITIES
11.2.3.1 Requirement of voice encryption for secure communication
11.2.3.2 Dynamic spectrum access opportunities for LMRs
11.2.4 CHALLENGES
11.2.4.1 Narrowbanding public safety communication channels
11.2.4.2 Growth of IoT (Internet of Things) devices
11.3 LAND MOBILE RADIO MARKET, BY TYPE
11.4 LAND MOBILE RADIO MARKET, BY TECHNOLOGY
11.4.1 DIGITAL LAND MOBILE RADIO
11.4.2 ANALOG LAND MOBILE RADIO
11.5 LAND MOBILE RADIO MARKET, BY APPLICATION
11.5.1 PUBLIC SAFETY
11.5.2 COMMERCIAL
11.6 GEOGRAPHIC ANALYSIS
11.6.1 NORTH AMERICA
11.6.2 EUROPE
11.6.3 APAC
11.6.4 ROW
11.7 COMPETITIVE LANDSCAPE
11.7.1 RANKING OF PLAYERS
12 AUTOMATED GUIDED VEHICLES
12.1 INTRODUCTION
12.2 MARKET DYNAMICS
12.2.1 DRIVERS
12.2.1.1 Growing demand for automation and material handling equipment in various process industries
12.2.1.2 Rising demand for automation is leading to new avenues for AGVs
12.2.1.3 Replacement of conventional batteries with lithium-ion based batteries
12.2.1.4 High labor cost, owing to scarcity of labor
12.2.1.5 Growing emphasis on workplace safety and increased productivity by industries
12.2.2 RESTRAINTS
12.2.2.1 High capital investments
12.2.2.2 High switching cost
12.2.3 OPPORTUNITIES
12.2.3.1 Emergence of flexible manufacturing systems (FMS)
12.2.3.2 Increased demand for intelligent and customized automated guided vehicles
12.2.4 CHALLENGES
12.2.4.1 Need to reduce market delivery time
12.3 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE
12.3.1 UNIT LOAD CARRIER
12.3.2 TOW VEHICLE
12.3.3 PALLET TRUCK
12.3.4 ASSEMBLY LINE VEHICLE
12.3.5 OTHERS
12.4 AUTOMATED GUIDED VEHICLE MARKET, BY NAVIGATION TECHNOLOGY
12.4.1 LASER GUIDANCE
12.4.2 MAGNETIC GUIDANCE
12.4.3 INDUCTIVE GUIDANCE
12.4.4 OPTICAL TAPE GUIDANCE
12.4.5 OTHERS
12.5 AUTOMATED GUIDED VEHICLE MARKET, BY BATTERY TYPE
12.5.1 LEAD
12.5.2 NICKEL-BASED
12.5.3 LITHIUM-ION
12.6 AUTOMATED GUIDED VEHICLE MARKET, BY INDUSTRY
12.6.1 AUTOMOTIVE
12.6.2 MANUFACTURING
12.6.3 FOOD & BEVERAGES
12.6.4 AEROSPACE
12.6.5 HEALTHCARE
12.6.6 LOGISTICS
12.6.7 RETAIL
12.6.8 OTHERS
12.7 AUTOMATED GUIDED VEHICLE MARKET, BY APPLICATION
12.7.1 TRANSPORTATION
12.7.2 DISTRIBUTION
12.7.3 STORAGE
12.7.4 ASSEMBLY
12.7.5 PACKAGING
12.7.6 OTHERS
12.8 GEOGRAPHIC ANALYSIS
12.8.1 NORTH AMERICA
12.8.2 EUROPE
12.8.3 APAC
12.8.4 ROW
12.9 COMPETITIVE LANDSCAPE
12.9.1 RANKING OF PLAYERS
13 WEARABLE TECHNOLOGY MARKET
13.1 INTRODUCTION
13.2 MARKET DYNAMICS
13.2.1 DRIVERS
13.2.1.1 Consumer preference for sophisticated gadgets
13.2.1.2 Increasing growth prospects of next-generation displays in wearable devices
13.2.1.3 Growing popularity of Internet of Things and connected devices
13.2.1.4 Increase in demand of wearables in fitness and medical devices
13.2.1.5 Development of key enabling technologies
13.2.2 RESTRAINTS
13.2.2.1 Power consumption and limited battery life
13.2.2.2 Shorter life cycle of the consumer electronics sector
13.2.3 OPPORTUNITIES
13.2.3.1 Adoption of wearables in multiple application areas
13.2.3.2 Multi-featured and hybrid application mobile devices
13.2.4 CHALLENGES
13.2.4.1 High initial costs
13.2.4.2 Unaddressed regulatory issues & vulnerability of healthcare information
13.3 WEARABLE TECHNOLOGY MARKET, BY TYPE
13.3.1 WEARABLE SMART TEXTILE
13.3.1.1 Active smart textiles
13.3.1.2 Passive smart textiles
13.3.1.3 Ultra-smart textiles
13.3.2 WEARABLE PRODUCTS & DEVICES (NON-TEXTILES)
13.4 WEARABLE TECHNOLOGY MARKET, BY PRODUCT
13.4.1 WRIST WEAR
13.4.1.1 Smartwatches
13.4.1.2 Wristbands
13.4.2 HEADWEAR & EYEWEAR
13.4.2.1 Augmented Reality headsets
13.4.2.2 Virtual Reality headsets
13.4.2.3 Others
13.4.3 FOOTWEAR
13.4.3.1 Casual Footwear
13.4.3.2 Special-Purpose Footwear
13.4.4 NECKWEAR
13.4.4.1 Fashion and Jewelry
13.4.4.2 Ties and Collars
13.4.5 BODYWEAR
13.4.5.1 Inner Wear
13.4.5.2 Fashion & Apparel
13.4.5.3 Armwear & Legwear
13.4.6 OTHER WEARABLE TECHNOLOGIES
13.4.6.1 Ring Scanners
13.4.6.2 Bodyworn Cameras
13.4.6.3 Internables/Implantables
13.5 WEARABLE TECHNOLOGY MARKET, BY APPLICATION
13.5.1 CONSUMER ELECTRONICS
13.5.1.1 Infotainment & Multimedia
13.5.1.2 Garments & Fashion
13.5.1.3 MultiFunction
13.5.2 HEALTHCARE
13.5.2.1 Clinical applications
13.5.2.2 Nonclinical applications
13.5.3 ENTERPRISE & INDUSTRIAL APPLICATION
13.5.3.1 Logistics, Packaging, & Warehouse
13.5.3.2 Other Industrial Applications
13.5.4 OTHER APPLICATIONS
13.6 GEOGRAPHIC ANALYSIS
13.6.1 AMERICAS
13.6.2 EUROPE
13.6.3 APAC
13.6.4 ROW
13.7 COMPETITIVE LANDSCAPE
13.7.1 RANKING OF PLAYERS
14 BLUETOOTH
14.1 INTRODUCTION
14.2 MARKET DYNAMICS
14.2.1 DRIVERS
14.2.1.1 Growing demand for smartphones and other wireless connectivity devices
14.2.1.2 Increasing market for cloud computing and IoT
14.2.1.3 Increasing demand for low-power wide-area (LPWA) networks
14.2.2 RESTRAINTS
14.2.2.1 Lack of uniform communication standards
14.2.2.2 Interference with other electromagnetic sources, physical objects, and layered structure
14.2.3 OPPORTUNITIES
14.2.3.1 Increased government funding for fast evolution of Internet of Things
14.2.3.2 Emerging need for cross-domain applications
14.2.4 CHALLENGES
14.2.4.1 Need for better security of information
14.2.4.2 Trade-off between features such as data rates, power consumption, and range for various wireless technologies
14.3 BLUETOOTH MARKET, BY TYPE
14.3.1 BLUETOOTH 2.0 AND 3.0
14.3.2 BLUETOOTH SMART
14.3.3 BLUETOOTH SMART/WI-FI
14.3.4 BLUETOOTH SMART/ANT+
14.4 BLUETOOTH MARKET, BY APPLICATION
14.4.1 AUTOMOTIVE AND TRANSPORTATION
14.4.2 CONSUMER ELECTRONICS
14.4.3 HEALTHCARE
14.4.4 BUILDING AUTOMATION
14.4.5 INDUSTRIAL
14.4.6 WEARABLE DEVICES
14.5 GEOGRAPHIC ANALYSIS
14.5.1 NORTH AMERICA
14.5.2 EUROPE
14.5.3 APAC
14.5.4 ROW
14.6 COMPETITIVE LANDSCAPE
14.6.1 RANKING OF PLAYERS
15 COMPANY PROFILES
15.1 INTRODUCTION
(Business Overview, Products & Services, Key Insights, Recent Developments, SWOT Analysis, Ratio Analysis, MnM View)*
15.2 QUALCOMM, INC.
15.3 SIERRA WIRELESS
15.4 APPLE, INC.
15.5 SAMSUNG ELECTRONICS CO., LTD.
15.6 NUANCE COMMUNICATION, INC.
15.7 INTEL CORPORATION
15.8 TEXAS INSTRUMENTS
15.9 ATMEL CORPORATION
15.10 STMICROELECTRONICS N.V.
15.11 AUTOTALKS LTD
15.12 HARRIS CORPORATION
15.13 MOTOROLA SOLUTIONS, INC.
15.14 DAIFUKU CO., LTD.
15.15 DEMATIC GMBH & CO. KG
*Details on Business Overview, Products & Services, Key Insights, Recent Developments, SWOT Analysis, MnM View might not be captured in case of unlisted companies.
16 APPENDIX
16.1 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
16.2 INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE
16.3 AVAILABLE CUSTOMIZATIONS
16.4 AUTHOR DETAILS
LIST OF TABLES
Table 1 MOBILE AUGMENTED REALITY MARKET, BY COMPONENT, 2014–2022, (USD BILLION)
Table 2 MOBILE AUGMENTED REALITY MARKET, BY APPLICATION, 2014–2022 (USD BILLION)
Table 3 MOBILE AUGMENTED REALITY MARKET, BY VERTICAL, 2014–2022 (USD BILLION)
Table 4 MOBILE AUGMENTED REALITY MARKET, BY REGION, 2014–2022 (USD BILLION)
Table 5 RANKING ANALYSIS OF TOP 5 PLAYERS IN MOBILE AUGMENTED REALITY MARKET
Table 6 WIRELESS GIGABIT MARKET, BY PRODUCT, 2014–2022 (USD MILLION)
Table 7 WIRELESS GIGABIT MARKET, BY MODULE, 2014–2022 (USD MILLION)
Table 8 WIRELESS GIGABIT MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 9 WIRELESS GIGABIT MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 10 RANKING ANALYSIS OF TOP 5 PLAYERS IN WIRELESS GIGABIT MARKET, 2015
Table 11 GOVERNMENT INITIATIVES IN THE V2X TECHNOLOGY MARKET, 2014–2016
Table 12 AUTOMOTIVE V2X MARKET, BY OFFERING, 2017–2022 (USD MILLION)
Table 13 AUTOMOTIVE V2X MARKET, BY COMMUNICATION TYPE, 2017–2022 (USD MILLION)
Table 14 AUTOMOTIVE V2X MARKET, BY VEHICLE TYPE, 2017–2022 (USD MILLION)
Table 15 AUTOMOTIVE V2X MARKET, BY CONNECTIVITY TYPE, 2017–2022 (USD MILLION)
Table 16 AUTOMOTIVE V2X MARKET, BY CONNECTIVITY TYPE, 2017–2022 (THOUSAND UNITS)
Table 17 AUTOMOTIVE V2X MARKET, BY APPLICATION, 2017–2022 (USD MILLION)
Table 18 AUTOMOTIVE V2X MARKET, BY REGION, 2017–2022 (USD MILLION)
Table 19 AUTOMOTIVE V2X MARKET, BY REGION, 2017–2022 (THOUSAND UNITS)
Table 20 QUALCOMM INC. EXPECTED TO LEAD THE SEMICONDUCTOR MARKET FOR AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, 2015
Table 21 MOBILE BIOMETRICS MARKET, BY COMPONENT, 2014–2022 (USD MILLION)
Table 22 MOBILE BIOMETRICS MARKET, BY AUTHENTICATION MODE, 2014–2022 (USD MILLION)
Table 23 MOBILE BIOMETRICS MARKET, BY INDUSTRY, 2014–2022 (USD MILLION)
Table 24 MOBILE BIOMETRICS MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 25 RANKING ANALYSIS OF TOP 5 PLAYERS IN MOBILE BIOMETRICS MARKET, 2015
Table 26 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY DEVICE, 2014–2022 (USD MILLION)
Table 27 DEVELOPMENTS: WIRELESS CHARGING IN SMARTPHONES
Table 28 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY TECHNOLOGY, 2014–2022 (USD MILLION)
Table 29 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY RANGE, 2014–2022 (USD MILLION)
Table 30 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY REGION, 2014–2022 (USD MILLION)
Table 31 RANKING ANALYSIS OF TOP 5 PLAYERS IN WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, 2015
Table 32 CELLULAR IOT MARKET, BY OFFERING, 2014–2022 (USD MILLION)
Table 33 CELLULAR IOT MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 34 CELLULAR IOT MARKET, BY END-USE APPLICATION, 2014–2022 (USD MILLION)
Table 35 CELLULAR IOT MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 36 RANKING ANALYSIS OF TOP 5 PLAYERS IN CELLULAR IOT MARKET, 2015
Table 37 LAND MOBILE RADIO MARKET, BY TYPE, 2014–2022 (USD BILLION)
Table 38 LAND MOBILE RADIO MARKET, BY TECHNOLOGY, 2014–2022 (USD BILLION)
Table 39 LAND MOBILE RADIO MARKET, TECHNOLOGY COMPARISON CHART
Table 40 LAND MOBILE RADIO MARKET, BY INDUSTRY, 2014–2022 (USD BILLION)
Table 41 LAND MOBILE RADIO MARKET, BY GEOGRAPHY, 2014–2022 (USD BILLION)
Table 42 RANKING ANALYSIS OF TOP 5 PLAYERS IN LAND MOBILE RADIO MARKET, 2015
Table 43 COUNTRY WISE RANKING OF MANUFACTURING OUTPUT, 2001 & 2013
Table 44 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 45 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE, 2014–2022 (THOUSAND UNITS)
Table 46 AUTOMATED GUIDED VEHICLE MARKET, BY NAVIGATION TECHNOLOGY, 2014-2022 (USD MILLION)
Table 47 AUTOMATED GUIDED VEHICLE MARKET, BY BATTERY TYPE, 2014-2022 (USD MILLION)
Table 48 AUTOMATED GUIDED VEHICLE MARKET, BY INDUSTRY, 2014–2022 (USD MILLION)
Table 49 AUTOMATED GUIDED VEHICLE MARKET, BY APPLICATION, 2014-2022 (USD MILLION)
Table 50 AUTOMATED GUIDED VEHICLE MARKET, BY REGION, 2014-2022 (USD MILLION)
Table 51 RANKING ANALYSIS OF TOP 5 PLAYERS IN AUTOMATED GUIDED VEHICLE MARKET, 2015
Table 52 THE NEED FOR SOPHISTICATED DEVICES PROPELS THE GROWTH OF THE WEARABLE TECHNOLOGY MARKET
Table 53 NEED OF SELF-POWERING DEVICES RESTRAINS THE GROWTH OF THE WEARABLE TECHNOLOGY MARKET
Table 54 INCREASING OPPORTUNITIES IN MULTIPLE APPLICATIONS AND TECHNOLOGICAL GROWTH PAVE THE GROWTH AVENUE FOR PLAYERS IN THE WEARABLES MARKET
Table 55 UNADDRESSED REGULATORY ISSUES AND VULNERABILITY OF HEALTHCARE INFORMATION
Table 56 WEARABLE TECHNOLOGY MARKET, BY TYPE, 2014–2022 (USD BILLION)
Table 57 WEARABLE TECHNOLOGY MARKET, BY TYPE, 2014–2022 (MILLION UNITS)
Table 58 WEARABLE TECHNOLOGY MARKET, BY PRODUCT, 2014–2022 (USD BILLION)
Table 59 WEARABLE TECHNOLOGY MARKET, BY PRODUCT, 2014–2022 (MILLION UNITS)
Table 60 WEARABLE TECHNOLOGY MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 61 WEARABLE TECHNOLOGY MARKET, BY GEOGRAPHY, 2014–2022 (USD BILLION)
Table 62 RANKING ANALYSIS OF TOP 5 PLAYERS IN WEARABLE TECHNOLOGY MARKET, 2015
Table 63 BLUETOOTH MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 64 BLUETOOTH MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 65 BLUETOOTH MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 66 RANKING ANALYSIS OF TOP 5 PLAYERS IN BLUETOOTH MARKET
Table 1 MOBILE AUGMENTED REALITY MARKET, BY COMPONENT, 2014–2022, (USD BILLION)
Table 2 MOBILE AUGMENTED REALITY MARKET, BY APPLICATION, 2014–2022 (USD BILLION)
Table 3 MOBILE AUGMENTED REALITY MARKET, BY VERTICAL, 2014–2022 (USD BILLION)
Table 4 MOBILE AUGMENTED REALITY MARKET, BY REGION, 2014–2022 (USD BILLION)
Table 5 RANKING ANALYSIS OF TOP 5 PLAYERS IN MOBILE AUGMENTED REALITY MARKET
Table 6 WIRELESS GIGABIT MARKET, BY PRODUCT, 2014–2022 (USD MILLION)
Table 7 WIRELESS GIGABIT MARKET, BY MODULE, 2014–2022 (USD MILLION)
Table 8 WIRELESS GIGABIT MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 9 WIRELESS GIGABIT MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 10 RANKING ANALYSIS OF TOP 5 PLAYERS IN WIRELESS GIGABIT MARKET, 2015
Table 11 GOVERNMENT INITIATIVES IN THE V2X TECHNOLOGY MARKET, 2014–2016
Table 12 AUTOMOTIVE V2X MARKET, BY OFFERING, 2017–2022 (USD MILLION)
Table 13 AUTOMOTIVE V2X MARKET, BY COMMUNICATION TYPE, 2017–2022 (USD MILLION)
Table 14 AUTOMOTIVE V2X MARKET, BY VEHICLE TYPE, 2017–2022 (USD MILLION)
Table 15 AUTOMOTIVE V2X MARKET, BY CONNECTIVITY TYPE, 2017–2022 (USD MILLION)
Table 16 AUTOMOTIVE V2X MARKET, BY CONNECTIVITY TYPE, 2017–2022 (THOUSAND UNITS)
Table 17 AUTOMOTIVE V2X MARKET, BY APPLICATION, 2017–2022 (USD MILLION)
Table 18 AUTOMOTIVE V2X MARKET, BY REGION, 2017–2022 (USD MILLION)
Table 19 AUTOMOTIVE V2X MARKET, BY REGION, 2017–2022 (THOUSAND UNITS)
Table 20 QUALCOMM INC. EXPECTED TO LEAD THE SEMICONDUCTOR MARKET FOR AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET, 2015
Table 21 MOBILE BIOMETRICS MARKET, BY COMPONENT, 2014–2022 (USD MILLION)
Table 22 MOBILE BIOMETRICS MARKET, BY AUTHENTICATION MODE, 2014–2022 (USD MILLION)
Table 23 MOBILE BIOMETRICS MARKET, BY INDUSTRY, 2014–2022 (USD MILLION)
Table 24 MOBILE BIOMETRICS MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 25 RANKING ANALYSIS OF TOP 5 PLAYERS IN MOBILE BIOMETRICS MARKET, 2015
Table 26 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY DEVICE, 2014–2022 (USD MILLION)
Table 27 DEVELOPMENTS: WIRELESS CHARGING IN SMARTPHONES
Table 28 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY TECHNOLOGY, 2014–2022 (USD MILLION)
Table 29 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY RANGE, 2014–2022 (USD MILLION)
Table 30 WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, BY REGION, 2014–2022 (USD MILLION)
Table 31 RANKING ANALYSIS OF TOP 5 PLAYERS IN WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS, 2015
Table 32 CELLULAR IOT MARKET, BY OFFERING, 2014–2022 (USD MILLION)
Table 33 CELLULAR IOT MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 34 CELLULAR IOT MARKET, BY END-USE APPLICATION, 2014–2022 (USD MILLION)
Table 35 CELLULAR IOT MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 36 RANKING ANALYSIS OF TOP 5 PLAYERS IN CELLULAR IOT MARKET, 2015
Table 37 LAND MOBILE RADIO MARKET, BY TYPE, 2014–2022 (USD BILLION)
Table 38 LAND MOBILE RADIO MARKET, BY TECHNOLOGY, 2014–2022 (USD BILLION)
Table 39 LAND MOBILE RADIO MARKET, TECHNOLOGY COMPARISON CHART
Table 40 LAND MOBILE RADIO MARKET, BY INDUSTRY, 2014–2022 (USD BILLION)
Table 41 LAND MOBILE RADIO MARKET, BY GEOGRAPHY, 2014–2022 (USD BILLION)
Table 42 RANKING ANALYSIS OF TOP 5 PLAYERS IN LAND MOBILE RADIO MARKET, 2015
Table 43 COUNTRY WISE RANKING OF MANUFACTURING OUTPUT, 2001 & 2013
Table 44 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 45 AUTOMATED GUIDED VEHICLE MARKET, BY TYPE, 2014–2022 (THOUSAND UNITS)
Table 46 AUTOMATED GUIDED VEHICLE MARKET, BY NAVIGATION TECHNOLOGY, 2014-2022 (USD MILLION)
Table 47 AUTOMATED GUIDED VEHICLE MARKET, BY BATTERY TYPE, 2014-2022 (USD MILLION)
Table 48 AUTOMATED GUIDED VEHICLE MARKET, BY INDUSTRY, 2014–2022 (USD MILLION)
Table 49 AUTOMATED GUIDED VEHICLE MARKET, BY APPLICATION, 2014-2022 (USD MILLION)
Table 50 AUTOMATED GUIDED VEHICLE MARKET, BY REGION, 2014-2022 (USD MILLION)
Table 51 RANKING ANALYSIS OF TOP 5 PLAYERS IN AUTOMATED GUIDED VEHICLE MARKET, 2015
Table 52 THE NEED FOR SOPHISTICATED DEVICES PROPELS THE GROWTH OF THE WEARABLE TECHNOLOGY MARKET
Table 53 NEED OF SELF-POWERING DEVICES RESTRAINS THE GROWTH OF THE WEARABLE TECHNOLOGY MARKET
Table 54 INCREASING OPPORTUNITIES IN MULTIPLE APPLICATIONS AND TECHNOLOGICAL GROWTH PAVE THE GROWTH AVENUE FOR PLAYERS IN THE WEARABLES MARKET
Table 55 UNADDRESSED REGULATORY ISSUES AND VULNERABILITY OF HEALTHCARE INFORMATION
Table 56 WEARABLE TECHNOLOGY MARKET, BY TYPE, 2014–2022 (USD BILLION)
Table 57 WEARABLE TECHNOLOGY MARKET, BY TYPE, 2014–2022 (MILLION UNITS)
Table 58 WEARABLE TECHNOLOGY MARKET, BY PRODUCT, 2014–2022 (USD BILLION)
Table 59 WEARABLE TECHNOLOGY MARKET, BY PRODUCT, 2014–2022 (MILLION UNITS)
Table 60 WEARABLE TECHNOLOGY MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 61 WEARABLE TECHNOLOGY MARKET, BY GEOGRAPHY, 2014–2022 (USD BILLION)
Table 62 RANKING ANALYSIS OF TOP 5 PLAYERS IN WEARABLE TECHNOLOGY MARKET, 2015
Table 63 BLUETOOTH MARKET, BY TYPE, 2014–2022 (USD MILLION)
Table 64 BLUETOOTH MARKET, BY APPLICATION, 2014–2022 (USD MILLION)
Table 65 BLUETOOTH MARKET, BY REGION, 2014–2022 (USD MILLION)
Table 66 RANKING ANALYSIS OF TOP 5 PLAYERS IN BLUETOOTH MARKET
LIST OF FIGURES
Figure 1 TOP 10 MOBILITY TECHNOLOGIES MARKET
Figure 2 PROCESS FLOW OF MARKET SIZE ESTIMATION
Figure 3 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH
Figure 4 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH
Figure 5 MOBILE AUGMENTED REALITY EXPECTED TO WITNESS THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 6 COMMERCIAL VERTICAL EXPECTED TO WITNESS HIGHEST GROWTH BETWEEN 2016 AND 2022
Figure 7 NETWORK INFRASTRUCTURE DEVICES EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 8 FINGERPRINT RECOGNITION METHOD IS EXPECTED TO DOMINATE THE SINGLE FACTOR AUTHENTICATION METHOD BETWEEN 2016 AND 2022
Figure 9 AUTOMATED DRIVER ASSISTANCE TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET FOR APPLICATIONS IN 2017
Figure 10 U.S. LIKELY TO HOLD THE LARGEST SHARE OF THE CELLULAR IOT MARKET BETWEEN 2016 AND 2022
Figure 11 DECLINE IN COST OF HARDWARE COMPONENTS WOULD DRIVE THE MOBILE AUGMENTED REALITY MARKET
Figure 12 MOBILE AUGMENTED REALITY MARKET FOR HARDWARE COMPONENTS EXPECTED TO GROW AT A HIGHER CAGR BETWEEN 2016 AND 2022
Figure 13 MOBILE AUGMENTED REALITY MARKET FOR SMARTPHONES EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 14 COMMERCIAL VERTICAL EXPECTED TO HOLD THE LARGEST SHARE OF THE MOBILE AUGMENTED REALITY MARKET BY 2022
Figure 15 GEOGRAPHIC SNAPSHOT: THE MARKET IN APAC TO GROW WITH THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 16 RISING NEED FOR FASTER DATA TRANSFER DRIVING THE GROWTH OF THE WIRELESS GIGABIT MARKET
Figure 17 DISPLAY DEVICES EXPECTED TO HOLD A LARGER SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BASED ON PRODUCT BETWEEN 2016 AND 2022
Figure 18 SYSTEM ON CHIP EXPECTED TO DOMINATE THE GLOBAL WIRELESS GIGABIT MARKET BETWEEN 2015 AND 2022
Figure 19 CONSUMER ELECTRONICS APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BETWEEN 2016 AND 2022
Figure 20 APAC EXPECTED TO HOLD THE LARGEST SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BY 2022 (USD MILLION)
Figure 21 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET DYNAMICS
Figure 22 NUMBER OF ROAD TRAFFIC DEATHS, WORLDWIDE
Figure 23 AUTOMOTIVE V2X MARKET FOR SOFTWARE EXPECTED TO GROW AT A HIGHER RATE BETWEEN 2017 AND 2022
Figure 24 V2V COMMUNICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 25 PASSENGER VEHICLES EXPECTED TO DOMINATE THE AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET BETWEEN 2017 AND 2022
Figure 26 CELLULAR CONNECTIVITY EXPECTED TO GROW AT A HIGHER RATE IN THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 27 AUTOMATED DRIVER ASSISTANCE APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 28 AUTOMOTIVE V2X MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2017 AND 2022
Figure 29 GOVERNMENT INITIATIVES TO ADOPT BIOMETRICS AND RISING MOBILE TRANSACTIONS ARE THE KEY DRIVERS FOR THE MOBILE BIOMETRICS MARKET
Figure 30 MOBILE BIOMETRICS MARKET FOR THE SOFTWARE SEGMENT EXPECTED TO GROW AT A HIGHER RATE COMPARED TO THE HARDWARE SEGMENT BETWEEN 2016 AND 2022
Figure 31 MOBILE BIOMETRICS MARKET FOR SINGLE-FACTOR AUTHENTICATION EXPECTED TO HOLD THE LARGEST MARKET SHARE IN 2016
Figure 32 CONSUMER ELECTRONICS EXPECTED TO HOLD THE LARGEST SHARE OF THE MOBILE BIOMETRICS MARKET IN 2016
Figure 33 MARKET IN ASIA-PACIFIC TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 34 INCREASING EFFICIENCY OF WIRELESS CHARGING-ENABLED DEVICES EXPECTED TO DRIVE THE MARKET
Figure 35 WEARABLE DEVICE EXPECTED TO WITNESS THE HIGHEST GROWTH RATE IN THE WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS BETWEEN 2016 AND 2022
Figure 36 INDUCTION TECHNOLOGY EXPECTED TO DOMINATE THE WIRELESS CHARGING MARKET BETWEEN 2016 AND 2022
Figure 37 APAC EXPECTED TO DOMINATE THE WIRELESS CHARGING MARKET BETWEEN 2016 AND 2022
Figure 38 RISING DEMAND FOR CELLULAR CONNECTIVITY IN THE AUTOMOTIVE SECTOR AND EXTENDED NETWORK COVERAGE CONTRIBUTES TO THE CELLULAR IOT MARKET GROWTH
Figure 39 RISING DEMAND FOR EMBEDDED CONNECTIVITY IN AUTOMOBILES
Figure 40 CELLULAR IOT MARKET FOR SOFTWARE SEGMENT EXPECTED TO GROW AT A HIGHER RATE BETWEEN 2016 AND 2022
Figure 41 2G EXPECTED TO HOLD THE LARGEST SHARE OF THE CELLULAR IOT MARKET BETWEEN 2016 AND 2022
Figure 42 CELLULAR IOT MARKET FOR BUILDING AUTOMATION EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 43 CELLULAR IOT MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 44 GROWING SIGNIFICANCE OF EFFICIENT CRITICAL COMMUNICATION OPERATIONS DRIVE THE MARKET
Figure 45 DIGITAL LMR EXPECTED TO GROW AT HIGHEST RATE FOR LAND MOBILE RADIO MARKET DURING THE FORECAST PERIOD
Figure 46 DIGITAL TECHNOLOGY EXPECTED TO GROW AT HIGHEST RATE FOR LAND MOBILE RADIO MARKET DURING THE FORECAST PERIOD
Figure 47 PUBLIC SAFETY APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF LAND MOBILE RADIO MARKET IN 2016
Figure 48 APAC EXPECTED TO REGISTER THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 49 GROWING MATERIAL HANDLING EQUIPMENT SECTOR IS THE KEY FACTOR DRIVING THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET
Figure 50 MATERIAL HANDLING EQUIPMENT MARKET, 2011-2014 (THOUSAND UNITS)
Figure 51 PROJECTED SHARE OF LITHIUM-ION BASED BATTERIES IN VARIOUS INDUSTRIAL SEGMENTS BY 2020
Figure 52 THE TOW VEHICLES SEGMENT IS EXPECTED TO LEAD THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET BETWEEN 2016 AND 2022
Figure 53 THE LASER GUIDANCE TECHNOLOGY IS EXPECTED TO DOMINATE THE AGV MARKET IN TERMS OF MARKET SHARE
Figure 54 AGV MARKET FOR LITHIUM-ION BATTERY IS EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 55 THE AUTOMOTIVE SEGMENT IS EXPECTED TO LEAD THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET BETWEEN 2016 AND 2022
Figure 56 THE TRANSPORTATION APPLICATION SEGMENT IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE IN THE AGV MARKET BY 2022
Figure 57 GROWING POPULARITY OF INTERNET OF THINGS AND CONNECTED DEVICES AND CONSUMER PREFERENCE FOR SOPHISTICATED GADGETS ARE THE DRIVING FACTORS FOR THE GROWTH OF WEARABLE TECHNOLOGY MARKET
Figure 58 WEARABLE PRODUCTS (NON-TEXTILES) EXPECTED TO GROW AT HIGHEST RATE IN WEARABLE TECHNOLOGY MARKET BETWEEN 2016 AND 2022
Figure 59 HEADWEAR SEGMENT OF WEARABLE TECHNOLOGY MARKET EXPECTED TO WITNESS THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 60 CONSUMER ELECTRONICS APPLICATION EXPECTED TO DOMINATE THE WEARABLE TECHNOLOGY MARKET BETWEEN 2016 AND 2022
Figure 61 AMERICAS WEARABLE TECHNOLOGY MARKET EXPECTED TO GROW AT THE HIGHEST RATE DURING FORECAST PERIOD
Figure 62 GROWING DEMAND FOR INTERNET OF THINGS AND INCREASING INTERNET CONNECTIVITY ARE DRIVING THE BLUETOOTH MARKET
Figure 63 CONSUMER ELECTRONICS APPLICATION EXPECTED TO DOMINATE THE BLUETOOTH MARKET BETWEEN 2016 AND 2022
Figure 64 APAC EXPECTED TO DOMINATE THE BLUETOOTH MARKET BETWEEN 2016 AND 2022
Figure 65 QUALCOMM, INC.: COMPANY SNAPSHOT
Figure 66 SIERRA WIRELESS: COMPANY SNAPSHOT
Figure 67 APPLE INC.: COMPANY SNAPSHOT
Figure 68 SAMSUNG ELECTRONICS CO., LTD.: COMPANY SNAPSHOT
Figure 69 NUANCE COMMUNICATIONS INC.: COMPANY SNAPSHOT
Figure 70 INTEL CORPORATION: COMPANY SNAPSHOT
Figure 71 TEXAS INSTRUMENTS: COMPANY SNAPSHOT
Figure 72 MICROCHIP TECHNOLOGY (ATMEL CORPORATION): COMPANY SNAPSHOT
Figure 73 STMICROELECTRONICS N.V.: COMPANY SNAPSHOT
Figure 74 HARRIS CORPORATION: COMPANY SNAPSHOT
Figure 75 MOTOROLA SOLUTIONS, INC.: COMPANY SNAPSHOT
Figure 76 DAIFUKU CO., LTD.: COMPANY SNAPSHOT
Figure 1 TOP 10 MOBILITY TECHNOLOGIES MARKET
Figure 2 PROCESS FLOW OF MARKET SIZE ESTIMATION
Figure 3 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH
Figure 4 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH
Figure 5 MOBILE AUGMENTED REALITY EXPECTED TO WITNESS THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 6 COMMERCIAL VERTICAL EXPECTED TO WITNESS HIGHEST GROWTH BETWEEN 2016 AND 2022
Figure 7 NETWORK INFRASTRUCTURE DEVICES EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 8 FINGERPRINT RECOGNITION METHOD IS EXPECTED TO DOMINATE THE SINGLE FACTOR AUTHENTICATION METHOD BETWEEN 2016 AND 2022
Figure 9 AUTOMATED DRIVER ASSISTANCE TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET FOR APPLICATIONS IN 2017
Figure 10 U.S. LIKELY TO HOLD THE LARGEST SHARE OF THE CELLULAR IOT MARKET BETWEEN 2016 AND 2022
Figure 11 DECLINE IN COST OF HARDWARE COMPONENTS WOULD DRIVE THE MOBILE AUGMENTED REALITY MARKET
Figure 12 MOBILE AUGMENTED REALITY MARKET FOR HARDWARE COMPONENTS EXPECTED TO GROW AT A HIGHER CAGR BETWEEN 2016 AND 2022
Figure 13 MOBILE AUGMENTED REALITY MARKET FOR SMARTPHONES EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 14 COMMERCIAL VERTICAL EXPECTED TO HOLD THE LARGEST SHARE OF THE MOBILE AUGMENTED REALITY MARKET BY 2022
Figure 15 GEOGRAPHIC SNAPSHOT: THE MARKET IN APAC TO GROW WITH THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 16 RISING NEED FOR FASTER DATA TRANSFER DRIVING THE GROWTH OF THE WIRELESS GIGABIT MARKET
Figure 17 DISPLAY DEVICES EXPECTED TO HOLD A LARGER SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BASED ON PRODUCT BETWEEN 2016 AND 2022
Figure 18 SYSTEM ON CHIP EXPECTED TO DOMINATE THE GLOBAL WIRELESS GIGABIT MARKET BETWEEN 2015 AND 2022
Figure 19 CONSUMER ELECTRONICS APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BETWEEN 2016 AND 2022
Figure 20 APAC EXPECTED TO HOLD THE LARGEST SHARE OF THE GLOBAL WIRELESS GIGABIT MARKET BY 2022 (USD MILLION)
Figure 21 AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET DYNAMICS
Figure 22 NUMBER OF ROAD TRAFFIC DEATHS, WORLDWIDE
Figure 23 AUTOMOTIVE V2X MARKET FOR SOFTWARE EXPECTED TO GROW AT A HIGHER RATE BETWEEN 2017 AND 2022
Figure 24 V2V COMMUNICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 25 PASSENGER VEHICLES EXPECTED TO DOMINATE THE AUTOMOTIVE VEHICLE-TO-EVERYTHING MARKET BETWEEN 2017 AND 2022
Figure 26 CELLULAR CONNECTIVITY EXPECTED TO GROW AT A HIGHER RATE IN THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 27 AUTOMATED DRIVER ASSISTANCE APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF THE AUTOMOTIVE V2X MARKET BETWEEN 2017 AND 2022
Figure 28 AUTOMOTIVE V2X MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2017 AND 2022
Figure 29 GOVERNMENT INITIATIVES TO ADOPT BIOMETRICS AND RISING MOBILE TRANSACTIONS ARE THE KEY DRIVERS FOR THE MOBILE BIOMETRICS MARKET
Figure 30 MOBILE BIOMETRICS MARKET FOR THE SOFTWARE SEGMENT EXPECTED TO GROW AT A HIGHER RATE COMPARED TO THE HARDWARE SEGMENT BETWEEN 2016 AND 2022
Figure 31 MOBILE BIOMETRICS MARKET FOR SINGLE-FACTOR AUTHENTICATION EXPECTED TO HOLD THE LARGEST MARKET SHARE IN 2016
Figure 32 CONSUMER ELECTRONICS EXPECTED TO HOLD THE LARGEST SHARE OF THE MOBILE BIOMETRICS MARKET IN 2016
Figure 33 MARKET IN ASIA-PACIFIC TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 34 INCREASING EFFICIENCY OF WIRELESS CHARGING-ENABLED DEVICES EXPECTED TO DRIVE THE MARKET
Figure 35 WEARABLE DEVICE EXPECTED TO WITNESS THE HIGHEST GROWTH RATE IN THE WIRELESS CHARGING MARKET FOR CONSUMER ELECTRONICS BETWEEN 2016 AND 2022
Figure 36 INDUCTION TECHNOLOGY EXPECTED TO DOMINATE THE WIRELESS CHARGING MARKET BETWEEN 2016 AND 2022
Figure 37 APAC EXPECTED TO DOMINATE THE WIRELESS CHARGING MARKET BETWEEN 2016 AND 2022
Figure 38 RISING DEMAND FOR CELLULAR CONNECTIVITY IN THE AUTOMOTIVE SECTOR AND EXTENDED NETWORK COVERAGE CONTRIBUTES TO THE CELLULAR IOT MARKET GROWTH
Figure 39 RISING DEMAND FOR EMBEDDED CONNECTIVITY IN AUTOMOBILES
Figure 40 CELLULAR IOT MARKET FOR SOFTWARE SEGMENT EXPECTED TO GROW AT A HIGHER RATE BETWEEN 2016 AND 2022
Figure 41 2G EXPECTED TO HOLD THE LARGEST SHARE OF THE CELLULAR IOT MARKET BETWEEN 2016 AND 2022
Figure 42 CELLULAR IOT MARKET FOR BUILDING AUTOMATION EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 43 CELLULAR IOT MARKET IN CHINA EXPECTED TO GROW AT THE HIGHEST RATE BETWEEN 2016 AND 2022
Figure 44 GROWING SIGNIFICANCE OF EFFICIENT CRITICAL COMMUNICATION OPERATIONS DRIVE THE MARKET
Figure 45 DIGITAL LMR EXPECTED TO GROW AT HIGHEST RATE FOR LAND MOBILE RADIO MARKET DURING THE FORECAST PERIOD
Figure 46 DIGITAL TECHNOLOGY EXPECTED TO GROW AT HIGHEST RATE FOR LAND MOBILE RADIO MARKET DURING THE FORECAST PERIOD
Figure 47 PUBLIC SAFETY APPLICATION EXPECTED TO HOLD THE LARGEST SHARE OF LAND MOBILE RADIO MARKET IN 2016
Figure 48 APAC EXPECTED TO REGISTER THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 49 GROWING MATERIAL HANDLING EQUIPMENT SECTOR IS THE KEY FACTOR DRIVING THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET
Figure 50 MATERIAL HANDLING EQUIPMENT MARKET, 2011-2014 (THOUSAND UNITS)
Figure 51 PROJECTED SHARE OF LITHIUM-ION BASED BATTERIES IN VARIOUS INDUSTRIAL SEGMENTS BY 2020
Figure 52 THE TOW VEHICLES SEGMENT IS EXPECTED TO LEAD THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET BETWEEN 2016 AND 2022
Figure 53 THE LASER GUIDANCE TECHNOLOGY IS EXPECTED TO DOMINATE THE AGV MARKET IN TERMS OF MARKET SHARE
Figure 54 AGV MARKET FOR LITHIUM-ION BATTERY IS EXPECTED TO GROW AT THE HIGHEST CAGR BETWEEN 2016 AND 2022
Figure 55 THE AUTOMOTIVE SEGMENT IS EXPECTED TO LEAD THE GLOBAL AUTOMATED GUIDED VEHICLE MARKET BETWEEN 2016 AND 2022
Figure 56 THE TRANSPORTATION APPLICATION SEGMENT IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE IN THE AGV MARKET BY 2022
Figure 57 GROWING POPULARITY OF INTERNET OF THINGS AND CONNECTED DEVICES AND CONSUMER PREFERENCE FOR SOPHISTICATED GADGETS ARE THE DRIVING FACTORS FOR THE GROWTH OF WEARABLE TECHNOLOGY MARKET
Figure 58 WEARABLE PRODUCTS (NON-TEXTILES) EXPECTED TO GROW AT HIGHEST RATE IN WEARABLE TECHNOLOGY MARKET BETWEEN 2016 AND 2022
Figure 59 HEADWEAR SEGMENT OF WEARABLE TECHNOLOGY MARKET EXPECTED TO WITNESS THE HIGHEST GROWTH RATE BETWEEN 2016 AND 2022
Figure 60 CONSUMER ELECTRONICS APPLICATION EXPECTED TO DOMINATE THE WEARABLE TECHNOLOGY MARKET BETWEEN 2016 AND 2022
Figure 61 AMERICAS WEARABLE TECHNOLOGY MARKET EXPECTED TO GROW AT THE HIGHEST RATE DURING FORECAST PERIOD
Figure 62 GROWING DEMAND FOR INTERNET OF THINGS AND INCREASING INTERNET CONNECTIVITY ARE DRIVING THE BLUETOOTH MARKET
Figure 63 CONSUMER ELECTRONICS APPLICATION EXPECTED TO DOMINATE THE BLUETOOTH MARKET BETWEEN 2016 AND 2022
Figure 64 APAC EXPECTED TO DOMINATE THE BLUETOOTH MARKET BETWEEN 2016 AND 2022
Figure 65 QUALCOMM, INC.: COMPANY SNAPSHOT
Figure 66 SIERRA WIRELESS: COMPANY SNAPSHOT
Figure 67 APPLE INC.: COMPANY SNAPSHOT
Figure 68 SAMSUNG ELECTRONICS CO., LTD.: COMPANY SNAPSHOT
Figure 69 NUANCE COMMUNICATIONS INC.: COMPANY SNAPSHOT
Figure 70 INTEL CORPORATION: COMPANY SNAPSHOT
Figure 71 TEXAS INSTRUMENTS: COMPANY SNAPSHOT
Figure 72 MICROCHIP TECHNOLOGY (ATMEL CORPORATION): COMPANY SNAPSHOT
Figure 73 STMICROELECTRONICS N.V.: COMPANY SNAPSHOT
Figure 74 HARRIS CORPORATION: COMPANY SNAPSHOT
Figure 75 MOTOROLA SOLUTIONS, INC.: COMPANY SNAPSHOT
Figure 76 DAIFUKU CO., LTD.: COMPANY SNAPSHOT