Some of the important players functioning in the worldwide aircraft sensors market could be UTC Aerospace Systems, TE Connectivity Ltd., Honeywell International, Inc., Zodiac Aerospace SA, AMETEK, Inc., Schneider Electric SE, General Atomics Corporation, Safran SA, Meggitt plc, and Curtiss-Wright Corporation.
The global aircraft sensors market is foretold to increase its growth in the near future on account of the elevating prominence of wireless sensors. Aircraft manufacturers could engage wireless sensors due to their contribution in the reduction of installation and maintenance expenses of aircrafts.
Moreover, such types of sensors could hold the capability to minimize the complexity of an aircraft’s subsystems design. The demand for wireless sensors in the market could be amplified with the augmented deployment of structural health monitoring system, which employs internet of things (IoT) technologies, in aircrafts.
Expected to rise at a CAGR of 6.4% during the forecast timeframe 2017–2022, the global aircraft sensors market is foreseen to be valued at a US$2.5 bn by 2022 after advancing from a valuation of US$1.8 bn attained in 2017.
Commercial Wins Race against Other Applications with Greater Revenue Earnings
The world aircraft sensors market is classified into turbofan, turboprop, and turboshaft, according to product segmentation. On the basis of application, the market could see a segregation into three vital segments, viz.
commercial, military, and general. Out of these markets for aircraft sensors, commercial is prognosticated to garner a telling share of 51.9% in the market by 2022.
By the end of the final forecast year, the commercial market could rake in a US$1.2 bn.
All of the product and application segments of the world aircraft sensors market are studied by the analysts in terms of Y-o-Y growth, market share, and revenue comparisons for the 10-year review period 2012–2022. This evaluation of the market based on the segmentation study could prove to be crucial for companies looking to advance in the market.
Players could be able to foresee the potential growth of critical segments and accordingly manage their lead in the market.
Browse Full Report with TOC- www.marketresearchhub.com/report/a…-2022-report.html
North America Listed among Most Attractive Regions while Reaping Larger Share
If the regional segmentation of the international aircraft sensors market is concerned, the authors of the report envisage the dominance of North America until the end of 2022. This region could also be one of the most lucrative markets for aircraft sensors as it expands at an expected CAGR of 7.0%.
In 2017, it already secured a US$0.8 bn and is envisioned to grow extensively well in the coming years.
Rising at a CAGR of 6.2% over the course of the forecast period, Europe could be another attractive region of the international aircraft sensors market. Not to forget, the Middle East and Africa (MEA) is prophesied to showcase its presence in the market while bagging in a US$0.3 bn by 2022 end.
Asia Pacific except Japan (APEJ) and Japan, however, could expand at a slower pace in the market. The revenue of each of these regions is meticulously compared by application and product in the report.
Global Aircraft Sensors Market: Competition
The report profiles noticeable players such as UTC Aerospace Systems, TE Connectivity Ltd., Honeywell International, Inc., Zodiac Aerospace SA, AMETEK, Inc., Schneider Electric SE, General Atomics Corporation, Safran SA, Meggitt plc, and Curtiss-Wright Corporation.
Category: Market Research Publishers and RetailersCompany about: Market Research Hub (MRH) is a next-generation reseller of research reports and analysis. MRH’s expansive collection of market research reports has been carefully curated to help key personnel and decision makers across industry verticals to clearly visualize their operating environment and take strategic steps. MRH functions as an integrated platform for the following products and services: Objective and sound market forecasts, qualitative and quantitative analysis, incisive insight into defin ...
For more information: