LATAM VSAT Maritime Antennas Market - Forecast(2020 - 2025)

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Overview

LATAM VSAT Maritime Antenna market is anticipated to reach $180 million by 2025 with a CAGR of 14.2% in the Forecast period 2020-2025. Increasing demand from passengers, as well as regulatory pressure on communications and crew welfare are major factors pushing maritime operators to install new generation satellite systems on their vessels. In addition, decreasing prices for capacity and terminals encourage increased VSAT services adoption. In addition, High throughput satellite (HTS) capacity is rising fast and is expected to grow even faster in the forecast period, as new operators enter the market. Hardware, such as receiving antennas and modems, is also evolving rapidly. Smaller, lighter, and more efficient antenna systems are gaining traction as the LATAM VSAT Maritime Antenna industry constantly evolves. Moreover, rise in adoption of VSAT Block up Converters (BUCS) for all military and commercial satellite applications such as satellite news gathering and digital audio broadcasting among others is also accelerating the LATAM VSAT Maritime Antenna market size in the forecast period 2020-2025.
 
Key Takeaways
  • Mexico dominated the LATAM VSAT Maritime Antenna market by a market share of more than 35% in 2019, owing to rapid adoption and deployment of low cost cloud solutions, network and satellite communication for shipping and offshore industry.
  • Ka-band in LATAM VSAT Maritime Antenna Market is anticipated to grow at a high CAGR of 17.1% owing to the advantage of providing increased spectrum compared to C-band and Ku-band by enabling greater volumes of traffic to be transmitted.
  • The IP-based applications is expected to grow at a highest CAGR of 18.5% due to the adoption of IP-based applications for better management of logistics with real time reporting.
  • LATAM VSAT Maritime Antenna Market top 10 companies include Satpro M&C Tech Co.,Ltd, Intellian Technologies, Inc., Cobham Plc, Furuno Electric Co.,Ltd., Gilat Satellite Networks, Kns Inc. EchoStar Corporation, Viasat, Inc.,  Inmarsat Plc, Speedcast International,  among others.
By Band- Segment Analysis 

Ka-band in LATAM VSAT Maritime Antenna Market is anticipated to grow at a CAGR of 17.1% in the forecast period 2020-2025. As this band provides increased spectrum compared to C-band and Ku-band by enabling greater volumes of traffic to be transmitted, the adoption is rising. Many industries are deploying Ka-band owing to its smaller antennas (VSATs), increased mobility and higher bandwidths and speeds. Owing to these advantages several companies have been launching these Ka-band services. In 2018, HISPASAT has Launched Ka-band Connectivity Services in Mexico to Extend High-Quality Internet Access. Similarly, several other companies are also planning to launch these solutions in order to gain traction in the market. Hence these benefits and developments are analysed to drive the market for LATAM VSAT Maritime Antenna in the forecast period 2020-2025.

By Application - Segment Analysis

IP-based applications are expected to grow at a highest CAGR of 18.5% during the forecast period. The adoption of IP-based applications is a common trend witnessed in the global Maritime VSAT Antenna market. As organizations are turning into bigger enterprises and experiencing growth, the need for IP based applications for better management of logistics with real time reporting is also rising. Similarly, the demand for IP based systems in commercial vessels which need high-speed connections to track on-board business, vessel management solutions and other is increased. Further, several vessel owners are providing on-board broadband connectivity and VoIP connectivity to retain their crew members. For instance, the iDirect system involves a very efficient form of time division multiple access (TDMA), called multi-frequency (MF), which allows several ships to share the same inbound protocol capacity. This protocol is known for its dynamic nature, guarantees fast response time, and is designed to meet a variety of service level agreements (SLAs). Hence these benefits are analysed to drive the market in the forecast period 2020-2025.

By Geography - Segment Analysis

Mexico dominated the LATAM VSAT Maritime Antenna market by a market share of more than 35% in 2019, as it is a developed economy whose GDP is majorly dependent on the manufacturing sector including transportation, marine sector and so on. The market for VSAT antenna is increasing owing to the rapid adoption and deployment of low cost cloud solutions as well as network and satellite communications for shipping and offshore industry. Moreover rising support from the government of the region in the form of investments and initiatives for developing marine sector is also enhancing the market growth in the forecast period 2020-2025.

Drivers – LATAM VSAT Maritime Antenna Market 
  • Adoption of Modern technologies
Adoption of VSAT owing to its improved communication reliability and efficiency is growing rapidly in the forecast period. VSAT technology is widely adopted by naval forces and coastal security due to its enhanced characteristics such as easy installation, cheaper cost and smaller size. Moreover high security solutions provided by VSAT technology to protect from seaborne threats and obstructions is also driving the end user to deploy this technology. Hence these benefits are analyzed to drive the market in the forecast period 2020-2025.
  • The increasing need for data communication in the marine industry.
With the increase in sophistication and need of reliable data communications across remote marine regions, the scope of maritime antenna systems has increased. The growing communication needs of ships, vessels, rigs, and naval sector to maintain operational efficiency, on-board security as well as employee and passenger safety has resulted in increasing demand for bandwidth and data communication terminals. Moreover, maritime VSAT Antenna has wide applications in maritime assistance, medical assistance, emergency calling, employee welfare, passenger assistance and enhanced maritime security, vehicle telemetry, and other remote services. In addition growing need to communicate with other ships to receive and send urgent maritime safety information, distress alerts in an emergency to or from rescue coordination centers ashore and from nearby ships is driving the market in the forecast period 2020-2025.

Challenges – LATAM VSAT Maritime Antenna Market
  • High Cost required for deployment and rising alternative technologies. 
The high Cost required for deploying VSAT antenna, especially for Naval, merchant and other vessels is limiting their adoption. For instance to install a stabilized Ku-band antenna like the SeaTel 4006 or 4009, the Orbit 7103 or the KNS Z10 costs in the region of $50,000 to $60,000. Hence the high cost related to deployment affect the market growth in the forecast period. Moreover rising adoption of Internet leased line, 4g cellular and other technology adoptions are set to hamper the market in the forecast period 2020-2025. 

Market Landscape

Partnerships, acquisitions, and R&D activities are key strategies adopted by players in the LATAM VSAT Maritime Antenna Market. In 2019, the market of LATAM VSAT Maritime Antenna Market industry outlook has been consolidated by the top five players accounting for 55% of the market share.  LATAM VSAT Maritime Antenna Market top 10 companies include Satpro M&C Tech Co.,Ltd, Intellian Technologies, Inc., Cobham Plc, Furuno Electric Co.,Ltd., Gilat Satellite Networks, Kns Inc. EchoStar Corporation, Viasat, Inc.,  Inmarsat Plc, Speedcast International,  among others.

Acquisitions/Technology Launches
  • In November 2019, Intellian has launched 1.25 meter KU-KA convertible NX Series future‑proof, performance-leading and low lifecycle cost VSAT antenna portfolio. The v130NX is a flexible system supporting Ku-band and Ka-band (2.5 GHz Wide) networks.
1. VSAT Maritime Antennas  Market Overview
2. Executive Summary
3. VSAT Maritime Antennas  Market Landscape 
4. Market Share Analysis
4.1. Comparative Analysis
4.2. Product Benchmarking
4.2.1. End User Profiling
4.2.2. Patent Analysis
4.2.3. Top 5 Financials Analysis
5. VSAT Maritime Antennas  Market - Forces
5.1. Market Drivers
5.2. Market Constraints
5.3. Market Challenges
5.4. Attractiveness of The VSAT Maritime Antennas  Market
5.4.1. Power of Suppliers
5.4.2. Power of Customers
5.4.3. Threat of New entrants 
5.4.4. Threat of Substitution
5.4.5. Degree of Competition
6. VSAT Maritime Antennas  Market– Strategic Analysis
6.1. Value Chain Analysis
6.2. Pricing Analysis
6.3. Opportunities Analysis
6.4. Product/Market Life Cycle Analysis
6.5. Suppliers and Distributors
7. VSAT Maritime Antennas  Market- By  Band
7.1. Int Ku-Band
7.2. Ka-Band
7.3. C-band
7.4. L-band
7.5. Others.   
8. VSAT Maritime Antennas  Market- By Application
8.1. IP-enabled Bridge
8.1.1. Real-time business applications
8.1.2. Common LAN infrastructure
8.1.3. Corporate voice and videoconferencing
8.1.4. Electronic Navigation/ECDIS
8.2. Vessel Operation
8.2.1. Condition monitoring
8.2.2. IT remote diagnostics
8.2.3. Vessel/Engine telemetry
8.2.4. Logistics and cargo data exchange
8.3. Crew Communications
8.3.1. Cellular service and VoIP
8.3.2. Email, web browsing
8.3.3. Streaming video
8.4. Others  
9. VSAT Maritime Antennas  Market- By Payloads
9.1. Merchant Vessels
9.2. Passenger Vessels
9.3. Offshore Vessels
9.4. Naval Vessels
9.5. Fishing Vessels
9.6. Others 
10. VSAT Maritime Antennas  Market- By Geography
10.1. Brazil
10.2. Mexico
10.3. Colombia
10.4. Argentina
10.5. Peru
10.6. Chile
10.7. Others
11. Market Entropy
11.1. New Product Launches
11.2. M&As, Collaborations, JVs and Partnership
12. Company Profiles
12.1. Manufacturer
12.1.1. SATPRO M&C TECH CO.,LTD,
12.1.2. INTELLIAN TECHNOLOGIES, INC.
12.1.3. Cobham plc,
12.1.4. FURUNO ELECTRIC CO.,LTD.
12.1.5. GILAT SATELLITE NETWORKS
12.1.6.  KNS Inc.
12.1.7. Others
12.2. Service Company
12.2.1. Castor Networks 
12.2.2. Network Innovations 
12.2.3. IsoTropic Networks
12.2.4. Others
13. Appendix
13.1. Abbreviations
13.2. Sources
13.3. Research Methodology
13.4. Bibliography
13.5. Compilation of Expert Insights
13.6. Disclaimer