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Real Time Market Research & Industry Analysis - MicroMarketMonitor

Japan Smart Sensor Market

  • Report Code: SM 1013
  • Publish Date: Upcoming
  
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A sensor with an interfacing circuit forms a smart sensor, which is capable of making decisions, logic function, and two-way communications. The major benefits offered by a smart sensor are high reliability, minimal cost, high performance, and scalability. Smart sensors are used in various applications, such as aerospace & defense, automotive, biomedical, industrial automation, building automation, and consumer electronics, among others. The sensors help in the measurement of brightness, acceleration, temperature, humidity, and material property.

 

The Japanese market, with a market value of $154.99 million in 2014, contributes a share of 6.86% in the global smart sensor market. The Japanese market is expected to reach a value of $704.88 million by 2018, at a CAGR of 46.03% from 2013 to 2018. Japan has been a technologically advanced economy for many decades, and with the rising disposable income of the population, the demand for smart devices has risen significantly in recent years. The growing demand for smart devices and the rising demand from the automotive and healthcare sectors are the main factors driving the growth of the smart sensor market in Japan.

 

Some of the major companies contributing to the Japanese market include Infineon technologies AG (Germany), Siemens AG (Germany), and Honeywell International Inc. (U.S.), among others.

The Japanese smart sensor market has been segmented in terms of components, applications, and technologies.

On the basis of Components:

  • MEMS Accelerometer
  • MEMS Gyroscopes
  • Digital Compass
  • Combos Sensor

On the basis of Technology:

  • Micro-Electro-Mechanical System (MEMS) Technology
  • Complementary Metal-Oxide-Semiconductor (CMOS) Technology
  • Optical Spectroscopy

 

CUSTOMIZATION OPTIONS

Along with the market data, customize the MMM assessments to meet your company’s specific needs. Customize to get comprehensive industry standards and deep dive analysis of the following parameters:

Product Analysis

  • Deep product analysis
  • Product matrix, which gives a detailed comparison of product portfolio of each company mapped at sub-segment level
  • Segment-wise analysis of usage of products at end-user level

 

Application Analysis

  • Application level data for every segment in smart sensor market
  • Revenue growth matrix showing market distribution 


1 Introduction
1.1 Objective of the study
1.2 Market Definitions
1.3 Market Segmentation & Aspects Covered
1.4 Research Methodology
1.4.1 Assumptions (Market Size, Forecast, etc)
2 Executive Summary
3 Market Overview
4 Smart Sensor-Japan, By Applications
4.1 Smart Sensor-Japan-Industrial Automation applications
4.1.1 Smart Sensor-Japan-Industrial Automation applications, By Types
4.1.1.1 Smart Sensor-Japan-Industrial Automation applications-Flow Sensor
4.1.1.2 Smart Sensor-Japan-Industrial Automation applications-Pressure Sensor
4.1.1.3 Smart Sensor-Japan-Industrial Automation applications-PH Sensor
4.1.1.4 Smart Sensor-Japan-Industrial Automation applications-Oxidation-Reduction Potential (ORP) Sensor
4.1.1.5 Smart Sensor-Japan-Industrial Automation applications-Temperature Sensor
4.1.1.6 Smart Sensor-Japan-Industrial Automation applications-Touch sensor
4.1.1.7 Smart Sensor-Japan-Industrial Automation applications-Turbidity Sensor
4.1.1.8 Smart Sensor-Japan-Industrial Automation applications-Dissolved Oxygen Sensor
4.2 Smart Sensor-Japan-Biomedical
4.2.1 Smart Sensor-Japan-Biomedical, By Types
4.2.1.1 Smart Sensor-Japan-Biomedical-PH Sensor
4.2.1.2 Smart Sensor-Japan-Biomedical-Oxidation-Reduction Potential (ORP) Sensor
4.2.1.3 Smart Sensor-Japan-Biomedical-Flow Sensor
4.2.1.4 Smart Sensor-Japan-Biomedical-Temperature Sensor
4.2.1.5 Smart Sensor-Japan-Biomedical-Turbidity Sensor
4.2.1.6 Smart Sensor-Japan-Biomedical-Dissolved Oxygen Sensor
4.2.1.7 Smart Sensor-Japan-Biomedical-Touch sensor
4.2.1.8 Smart Sensor-Japan-Biomedical-Pressure Sensor
4.3 Smart Sensor-Japan-Consumer Electronics
4.3.1 Smart Sensor-Japan-Consumer Electronics, By Types
4.3.1.1 Smart Sensor-Japan-Consumer Electronics-Temperature Sensor
4.3.1.2 Smart Sensor-Japan-Consumer Electronics-Touch sensor
4.3.1.3 Smart Sensor-Japan-Consumer Electronics-Pressure Sensor
4.3.1.4 Smart Sensor-Japan-Consumer Electronics-Flow Sensor
4.3.1.5 Smart Sensor-Japan-Consumer Electronics-Turbidity Sensor
4.3.1.6 Smart Sensor-Japan-Consumer Electronics-Dissolved Oxygen Sensor
4.3.1.7 Smart Sensor-Japan-Consumer Electronics-Oxidation-Reduction Potential (ORP) Sensor
4.3.1.8 Smart Sensor-Japan-Consumer Electronics-PH Sensor
4.4 Smart Sensor-Japan-Building Automation
4.4.1 Smart Sensor-Japan-Building Automation, By Types
4.4.1.1 Smart Sensor-Japan-Building Automation-Pressure Sensor
4.4.1.2 Smart Sensor-Japan-Building Automation-Temperature Sensor
4.4.1.3 Smart Sensor-Japan-Building Automation-Touch sensor
4.4.1.4 Smart Sensor-Japan-Building Automation-Flow Sensor
4.4.1.5 Smart Sensor-Japan-Building Automation-PH Sensor
4.4.1.6 Smart Sensor-Japan-Building Automation-Oxidation-Reduction Potential (ORP) Sensor
4.4.1.7 Smart Sensor-Japan-Building Automation-Dissolved Oxygen Sensor
4.4.1.8 Smart Sensor-Japan-Building Automation-Turbidity Sensor
4.5 Smart Sensor-Japan-Automotive
4.5.1 Smart Sensor-Japan-Automotive, By Types
4.5.1.1 Smart Sensor-Japan-Automotive Sensors-Dissolved Oxygen Sensor
4.5.1.2 Smart Sensor-Japan-Automotive Sensors-Flow Sensor
4.5.1.3 Smart Sensor-Japan-Automotive Sensors-Pressure Sensor
4.5.1.4 Smart Sensor-Japan-Automotive Sensors-Touch sensor
4.5.1.5 Smart Sensor-Japan-Automotive Sensors-Temperature Sensor
4.5.1.6 Smart Sensor-Japan-Automotive Sensors-Turbidity Sensor
4.5.1.7 Smart Sensor-Japan-Automotive Sensors-Oxidation-Reduction Potential (ORP) Sensor
4.5.1.8 Smart Sensor-Japan-Automotive Sensors-PH Sensor
4.6 Smart Sensor-Japan-Aerospace & Defense
4.6.1 Smart Sensor-Japan-Aerospace & Defense, By Types
4.6.1.1 Smart Sensor-Japan-Aerospace & Defense-Pressure Sensor
4.6.1.2 Smart Sensor-Japan-Aerospace & Defense-Dissolved Oxygen Sensor
4.6.1.3 Smart Sensor-Japan-Aerospace & Defense-Turbidity Sensor
4.6.1.4 Smart Sensor-Japan-Aerospace & Defense-Touch sensor
4.6.1.5 Smart Sensor-Japan-Aerospace & Defense-Flow Sensor
4.6.1.6 Smart Sensor-Japan-Aerospace & Defense-Temperature Sensor
4.6.1.7 Smart Sensor-Japan-Aerospace & Defense-Oxidation-Reduction Potential (ORP) Sensor
4.6.1.8 Smart Sensor-Japan-Aerospace & Defense-PH Sensor
5 Smart Sensor-Japan, By Components
5.1 Smart Sensor-Japan-ADC
5.2 Smart Sensor-Japan-Transceivers
5.3 Smart Sensor-Japan-Amplifier
5.4 Smart Sensor-Japan-Microcontroller
5.5 Smart Sensor-Japan-DAC
6 Smart Sensor-Japan, By Types
6.1 Smart Sensor-Japan-Pressure Sensor
6.1.1 Smart Sensor-Japan-Pressure Sensor, By Applications
6.1.1.1 Smart Sensor-Japan-Industrial Automation applications-Pressure Sensor
6.1.1.2 Smart Sensor-Japan-Building Automation-Pressure Sensor
6.1.1.3 Smart Sensor-Japan-Consumer Electronics-Pressure Sensor
6.1.1.4 Smart Sensor-Japan-Aerospace & Defense-Pressure Sensor
6.1.1.5 Smart Sensor-Japan-Automotive Sensors-Pressure Sensor
6.1.1.6 Smart Sensor-Japan-Biomedical-Pressure Sensor
6.1.2 Smart Sensor-Japan-Pressure Sensor, By Technologies
6.1.2.1 CMOS-Japan-Pressure Sensor
6.1.2.2 MEMS Technology-Japan-Pressure Sensor
6.1.2.3 Optical Spectroscopy-Japan-Pressure Sensor
6.2 Smart Sensor-Japan-Flow Sensor
6.2.1 Smart Sensor-Japan-Flow Sensor, By Applications
6.2.1.1 Smart Sensor-Japan-Industrial Automation applications-Flow Sensor
6.2.1.2 Smart Sensor-Japan-Biomedical-Flow Sensor
6.2.1.3 Smart Sensor-Japan-Consumer Electronics-Flow Sensor
6.2.1.4 Smart Sensor-Japan-Automotive Sensors-Flow Sensor
6.2.1.5 Smart Sensor-Japan-Building Automation-Flow Sensor
6.2.1.6 Smart Sensor-Japan-Aerospace & Defense-Flow Sensor
6.2.2 Smart Sensor-Japan-Flow Sensor, By Technologies
6.2.2.1 CMOS-Japan-Flow Sensor
6.2.2.2 MEMS Technology-Japan-Flow Sensor
6.2.2.3 Optical Spectroscopy-Japan-Flow Sensor
6.3 Smart Sensor-Japan-Temperature Sensor
6.3.1 Smart Sensor-Japan-Temperature Sensor, By Applications
6.3.1.1 Smart Sensor-Japan-Consumer Electronics-Temperature Sensor
6.3.1.2 Smart Sensor-Japan-Industrial Automation applications-Temperature Sensor
6.3.1.3 Smart Sensor-Japan-Building Automation-Temperature Sensor
6.3.1.4 Smart Sensor-Japan-Biomedical-Temperature Sensor
6.3.1.5 Smart Sensor-Japan-Aerospace & Defense-Temperature Sensor
6.3.1.6 Smart Sensor-Japan-Automotive Sensors-Temperature Sensor
6.3.2 Smart Sensor-Japan-Temperature Sensor, By Technologies
6.3.2.1 CMOS-Japan-Temperature Sensor
6.3.2.2 MEMS Technology-Japan-Temperature Sensor
6.3.2.3 Optical Spectroscopy-Japan-Temperature Sensor
6.4 Smart Sensor-Japan-Touch sensor
6.4.1 Smart Sensor-Japan-Touch sensor, By Applications
6.4.1.1 Smart Sensor-Japan-Consumer Electronics-Touch sensor
6.4.1.2 Smart Sensor-Japan-Building Automation-Touch sensor
6.4.1.3 Smart Sensor-Japan-Industrial Automation applications-Touch sensor
6.4.1.4 Smart Sensor-Japan-Biomedical-Touch sensor
6.4.1.5 Smart Sensor-Japan-Automotive Sensors-Touch sensor
6.4.1.6 Smart Sensor-Japan-Aerospace & Defense-Touch sensor
6.4.2 Smart Sensor-Japan-Touch sensor, By Technologies
6.4.2.1 CMOS-Japan-Touch sensor
6.4.2.2 MEMS Technology-Japan-Touch sensor
6.4.2.3 Optical Spectroscopy-Japan-Touch sensor
6.5 Smart Sensor-Japan-Dissolved Oxygen Sensor
6.5.1 Smart Sensor-Japan-Dissolved Oxygen Sensor, By Applications
6.5.1.1 Smart Sensor-Japan-Biomedical-Dissolved Oxygen Sensor
6.5.1.2 Smart Sensor-Japan-Automotive Sensors-Dissolved Oxygen Sensor
6.5.1.3 Smart Sensor-Japan-Industrial Automation applications-Dissolved Oxygen Sensor
6.5.1.4 Smart Sensor-Japan-Aerospace & Defense-Dissolved Oxygen Sensor
6.5.1.5 Smart Sensor-Japan-Building Automation-Dissolved Oxygen Sensor
6.5.1.6 Smart Sensor-Japan-Consumer Electronics-Dissolved Oxygen Sensor
6.5.2 Smart Sensor-Japan-Dissolved Oxygen Sensor, By Technologies
6.5.2.1 CMOS-Japan-Dissolved Oxygen Sensor
6.5.2.2 MEMS Technology-Japan-Dissolved Oxygen Sensor
6.5.2.3 Optical Spectroscopy-Japan-Dissolved Oxygen Sensor
6.6 Smart Sensor-Japan-Turbidity Sensor
6.6.1 Smart Sensor-Japan-Turbidity Sensor, By Applications
6.6.1.1 Smart Sensor-Japan-Biomedical-Turbidity Sensor
6.6.1.2 Smart Sensor-Japan-Industrial Automation applications-Turbidity Sensor
6.6.1.3 Smart Sensor-Japan-Consumer Electronics-Turbidity Sensor
6.6.1.4 Smart Sensor-Japan-Aerospace & Defense-Turbidity Sensor
6.6.1.5 Smart Sensor-Japan-Automotive Sensors-Turbidity Sensor
6.6.1.6 Smart Sensor-Japan-Building Automation-Turbidity Sensor
6.6.2 Smart Sensor-Japan-Turbidity Sensor, By Technologies
6.6.2.1 CMOS-Japan-Turbidity Sensor
6.6.2.2 MEMS Technology-Japan-Turbidity Sensor
6.6.2.3 Optical Spectroscopy-Japan-Turbidity Sensor
6.7 Smart Sensor-Japan-Oxidation-Reduction Potential (ORP) Sensor
6.7.1 Smart Sensor-Japan-Oxidation-Reduction Potential (ORP) Sensor, By Applications
6.7.1.1 Smart Sensor-Japan-Biomedical-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.2 Smart Sensor-Japan-Industrial Automation applications-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.3 Smart Sensor-Japan-Building Automation-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.4 Smart Sensor-Japan-Consumer Electronics-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.5 Smart Sensor-Japan-Aerospace & Defense-Oxidation-Reduction Potential (ORP) Sensor
6.7.1.6 Smart Sensor-Japan-Automotive Sensors-Oxidation-Reduction Potential (ORP) Sensor
6.7.2 Smart Sensor-Japan-Oxidation-Reduction Potential (ORP) Sensor, By Technologies
6.7.2.1 CMOS-Japan-Oxidation-Reduction Potential (ORP) Sensor
6.7.2.2 MEMS Technology-Japan-Oxidation-Reduction Potential (ORP) Sensor
6.7.2.3 Optical Spectroscopy-Japan-Oxidation-Reduction Potential (ORP) Sensor
6.8 Smart Sensor-Japan-PH Sensor
6.8.1 Smart Sensor-Japan-PH Sensor, By Applications
6.8.1.1 Smart Sensor-Japan-Biomedical-PH Sensor
6.8.1.2 Smart Sensor-Japan-Industrial Automation applications-PH Sensor
6.8.1.3 Smart Sensor-Japan-Building Automation-PH Sensor
6.8.1.4 Smart Sensor-Japan-Consumer Electronics-PH Sensor
6.8.1.5 Smart Sensor-Japan-Aerospace & Defense-PH Sensor
6.8.1.6 Smart Sensor-Japan-Automotive Sensors-PH Sensor
6.8.2 Smart Sensor-Japan-PH Sensor, By Technologies
6.8.2.1 CMOS-Japan-PH Sensor
6.8.2.2 MEMS Technology-Japan-PH Sensor
6.8.2.3 Optical Spectroscopy-Japan-PH Sensor
7 Smart Sensor-Japan, By Technologies
7.1 CMOS-Japan
7.1.1 CMOS-Japan, By Types
7.1.1.1 CMOS-Japan-Temperature Sensor
7.1.1.2 CMOS-Japan-Touch sensor
7.1.1.3 CMOS-Japan-Pressure Sensor
7.1.1.4 CMOS-Japan-Flow Sensor
7.1.1.5 CMOS-Japan-Dissolved Oxygen Sensor
7.1.1.6 CMOS-Japan-Turbidity Sensor
7.1.1.7 CMOS-Japan-Oxidation-Reduction Potential (ORP) Sensor
7.1.1.8 CMOS-Japan-PH Sensor
7.2 MEMS Technology-Japan
7.2.1 MEMS Technology-Japan, By Types
7.2.1.1 MEMS Technology-Japan-Pressure Sensor
7.2.1.2 MEMS Technology-Japan-Flow Sensor
7.2.1.3 MEMS Technology-Japan-Temperature Sensor
7.2.1.4 MEMS Technology-Japan-Touch sensor
7.2.1.5 MEMS Technology-Japan-Dissolved Oxygen Sensor
7.2.1.6 MEMS Technology-Japan-Turbidity Sensor
7.2.1.7 MEMS Technology-Japan-Oxidation-Reduction Potential (ORP) Sensor
7.2.1.8 MEMS Technology-Japan-PH Sensor
7.3 Optical Spectroscopy-Japan
7.3.1 Optical Spectroscopy-Japan, By Types
7.3.1.1 Optical Spectroscopy-Japan-Flow Sensor
7.3.1.2 Optical Spectroscopy-Japan-Pressure Sensor
7.3.1.3 Optical Spectroscopy-Japan-Temperature Sensor
7.3.1.4 Optical Spectroscopy-Japan-Touch sensor
7.3.1.5 Optical Spectroscopy-Japan-Oxidation-Reduction Potential (ORP) Sensor
7.3.1.6 Optical Spectroscopy-Japan-PH Sensor
7.3.1.7 Optical Spectroscopy-Japan-Dissolved Oxygen Sensor
7.3.1.8 Optical Spectroscopy-Japan-Turbidity Sensor
8 Smart Sensor-Japan, By Companies
8.1 Competitive landscape
8.2 Smart Sensor-Japan-Siemens AG
8.3 Smart Sensor-Japan-Asea Brown Boveri Ltd.(ABB)
8.4 Smart Sensor-Japan-Infineon Technologies AG
8.5 Smart Sensor-Japan-Analog Device

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