市場調查報告書
商品編碼
1126808
物聯網節點/物聯網網關全球市場規模/份額/行業趨勢分析報告按硬件(連接IC、處理器、傳感器、存儲設備、邏輯設備),用戶,地區,展望/預測2022-2028Global IoT Node and Gateway Market Size, Share & Industry Trends Analysis Report By Hardware (Connectivity IC, Processor, Sensor, Memory Device and Logic Device), By End User, By Regional Outlook and Forecast, 2022 - 2028 |
物聯網節點/物聯網網關的全球市場規模預計到 2028 年將達到 5.961 億美元,在預測期內以 6.9% 的複合年增長率增長。
它利用基於 WiFi、藍牙、Zigbee、LoRA 和 6LoWPAN 協議的已安裝傳感器節點。物聯網節點和網關採用數據加密技術和安全認證(SSL/TSL),實現安全物聯網。物聯網網關設備的硬件安全由TPM(可信平台模塊)和TEE(可信執行環境)提供。
物聯網節點/物聯網網關技術為物聯網傳感器網絡提供斜坡 IP/斜坡下降,具有可擴展性、價格合理且易於部署和配置。所有 IoT 設備設置和配置都保存在網關設備的內存中。設備安全、強大的數據保護和網絡安全都由物聯網網關提供。
網關硬件採用密碼認證芯片實現設備識別和設備安全,防止物聯網網關從未經授權的固件啟動,提高安全性。為了降低數據傳輸成本和應用程序所需的處理能力,物聯網網關具有智能來考慮和確定哪些數據應該被緩存並分佈在網絡上進行處理。
COVID-19 影響分析
物聯網節點和網關市場受到 COVID-19 的負面影響,因為公司削減了對尖端產品和服務的投資以保持競爭力。然而,COVID-19 的爆發對全球物聯網節點和物聯網網關市場產生了重大影響。製造商正在努力生產和組裝新的物聯網節點和網關,因為工人呆在家裡,而當前的規則和法規阻止他們在各種倉庫中運輸現有設備,並擾亂世界各地的供應鏈。
市場增長因素
5g 技術在全球範圍內的擴展
在發達國家,使用互聯網的人口比例在過去 10-15 年顯著增加。在物聯網領域,作為第五代移動通信的5G未來有望普及,並有望從中受益。這從根本上說是因為 5G 網絡將大大提高這些連接設備的功能和可靠性。 5G 將提供更快、更高性能的網絡,以滿足您的連接需求。
政府對物聯網技術研發的支持和舉措增加
在新技術和新產品的開發中,研發活動在加速引入新技術和產品方面發揮著重要作用。在物聯網技術領域,全球範圍內的研發活動蓬勃發展。此外,政府在加速這一進程中也可以發揮作用。為了提高生產力,世界各國政府都在支持和讚助物聯網的研發。
市場製約因素
數據安全和隱私問題
物聯網具有巨大的潛力,因為它正迅速被所有最終用途行業採用,例如可穿戴設備、醫療保健和零售。然而,對數據安全和隱私的擔憂是主要的商業障礙。隨著物聯網在終端應用中的引入,連接設備的數量正在增加,並且正在生成大量數據。網絡犯罪分子可以滲透網絡並使用這些信息來跟蹤公司戰略、評估個人健康等等。
硬件展望
基於硬件,IoT 節點/IoT 網關市場細分為處理器、傳感器、連接 IC、存儲設備和邏輯設備。 2021 年,處理器部分將在物聯網節點和物聯網網關市場佔據重要的收入份額。該細分市場的增長率上升主要是由於處理器在系統運行中的重要性。處理器是響應和處理驅動機器的基本命令的邏輯電路。
最終用戶展望
按最終用戶應用,物聯網節點和物聯網網關市場細分為消費電子、汽車和運輸、醫療保健、零售、樓宇自動化、製造、BFSI、石油和天然氣等。 2021 年,零售領域已成為物聯網節點/網關市場中增長最快的領域。物聯網在零售領域的使用與 RFID 和 GPS 技術齊頭並進,以幫助公司跟蹤供應鏈中的產品。它為零售商提供了監控貨物移動、狀況和位置所需的透明度,同時預測準確的交貨時間。
區域展望
按地區分析了北美、歐洲、亞太地區和 LAMEA 的 IoT 節點和 IoT 網關市場。 2021 年,亞太地區將佔據物聯網節點和物聯網網關市場的最大收入份額。支持該地區市場增長的關鍵因素包括互聯網在商業和住宅領域的滲透率不斷提高、消費者基礎更廣泛、可支配收入增加以及 IT 基礎設施的改善。
The Global IoT Node and Gateway Market size is expected to reach $596.1 Million by 2028, rising at a market growth of 6.9% CAGR during the forecast period.
The security and filtering of data, protocol conversion, processing, connecting devices, and other critical duties are all carried out by an IoT node and gateway hardware and software. It serves as a junction for them because many peripheral systems comprise devices, controllers, sensors, and the cloud. By using IoT nodes and gateways, extra storage, security, and processing services are thereby offered to the end nodes at a level that is both cost- and power-effective.
Additionally, several communication methods are employed to enable nodes to communicate with one another within the network. As a result, they find use in a variety of end uses, including consumer electronics, retail, oil & gas, automotive, agriculture, BFSI, transportation, healthcare, and other industries. To enable connection with networks of several IoT sensors, IoT nodes and gateways are utilized.
It takes advantage of the installed sensor nodes based on the WiFi, Bluetooth, Zigbee, LoRA, and 6LoWPAN protocols. Using data encryption techniques and security certifications (SSL/TSL), IoT nodes and gateways enable secure IoT. Hardware security for IoT gateway devices is provided by the Trusted Platform Module (TPM) as well as Trusted Execution Environment (TEE).
IoT node and gateway technology provides ramp-IP/ramp-down of IoT sensor networks and is scalable, affordable, and simple to deploy, and configure. All IoT device settings and configurations are kept in the memory of the gateway device. Device security, strong data protection, and network security are all provided by the IoT gateway.
Crypto authentication chips are used in the gateway hardware to implement device identification and device security so that the IoT gateway does not boot from unapproved firmware, hence enhancing security. In order to reduce the cost of data transfer and the processing power required by applications, the IoT gateway has the intelligence to review and determine which data needs to be cached and which data needs to be delivered over the network for processing.
COVID-19 Impact Analysis
The IoT node and gateway market were negatively impacted by COVID-19 as a result of businesses cutting back on their investments in cutting-edge products and services to remain competitive. However, The COVID-19 outbreak has had a substantial impact on the global IoT node and gateway market. Owing to workers staying at home and the inability of existing devices in various warehouses to be transported due to present rules and regulations, the manufacturers have struggled to produce and assemble novel IoT nodes and gateways, which has disrupted the supply chains across the world.
Market Growth Factors
Increasing Penetration Of 5g Technology All Over The World
In industrialized nations, the proportion of people who use the Internet has significantly increased over the past 10 to 15 years. The IoT sector is anticipated to benefit from the future rollout of 5G, the fifth generation of mobile communications. This is basically because 5G networks would significantly boost the functionality and dependability of these connected devices. A faster, more capable network that can meet connectivity needs would be provided by 5G.
Increasing Government Support And Initiatives In Research And Development Of The Iot Technology
A key factor in the development of any new technology or product, research and development activities play a key role in accelerating its introduction of it. There is an increase in the number of research and development activities all over the world in the sector of IoT technology. Moreover, governments are also contributing their part in order to accelerate the process. To increase their productivity, governments all over the world are supporting and sponsoring IoT research and development.
Market Restraining Factors
Concerns Regarding Data Security And Privacy
IoT has enormous potential since it is being adopted at a rapid rate across all end-use industries, including wearables, healthcare, and retail. Data security and privacy concerns, however, are significant business barriers. A significant amount of data is being produced as the number of connected devices grows along with the adoption of IoT in end-use applications. Cybercriminals are able to break into networks and utilize this information to track the behavior of a company's strategy, evaluate a person's health status, and more.
Hardware Outlook
Based on hardware, the IoT Node and Gateway Market is segregated into Processor, Sensor, Connectivity IC, Memory Device, and Logic Device. In 2021, the processor segment garnered a significant revenue share of the IoT node and gateway market. The rise in the growth of the segment is primarily ascribed to the high significance of processors in the operation of the system. The logic circuitry that reacts to and processes the fundamental commands that power a machine is its processor.
End-User Outlook
By End-User Application, the IoT Node and Gateway Market is segmented into Consumer Electronics, Automotive & Transportation, Healthcare, Retail, Building Automation, Manufacturing, BFSI, Oil & Gas, and Others. In 2021, the retail segment emerged as the fastest growing segment of the IoT node and gateway market. The usage of IoT in the retail sector is closely linked to RFID and GPS technology, which assist firms in tracking products along with the supply chain. It provides retailers with the transparency they need to keep an eye on goods movement, conditions, and location while also predicting an exact delivery time.
Regional Outlook
Region-Wise, the IoT Node and Gateway Market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. In 2021, Asia-pacific accounted for the biggest revenue share of the IoT node and gateway market. Some of the important factors supporting the growth of the regional market include the increasing internet penetration in business and residential spaces, the wide consumer base, rising disposable income, as well as improving IT infrastructure.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Cisco Systems, Inc., Hewlett-Packard Enterprise Company, Dell Technologies, Inc., Intel Corporation, Huawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.), Texas Instruments, Inc., NXP Semiconductors N.V., Microchip Technology, Inc., Advantech Co., Ltd., and TE Connectivity Ltd.
Strategies deployed in IoT Node and Gateway Market
Jul-2022: Advantech released a new joint solution with Actility, a leader in IoT network management. With this launch, the companies aimed to enable the deployment and management of private LoRaWAN networks within customer premises by integrating the ruggedized and advanced IPC of Advantech into Actility's embedded software. In addition, this integration would fulfill the demands of customers within the fast-growing industrial automation market.
Oct-2021: Dell unveiled MC Edge Gateway and Satellite nodes, two new edge innovations in its PC and infrastructure offerings. With this launch, the company aimed to help businesses in streamlining deployments while also acquiring more value via data generated and processed outside the conventional public cloud and data center.
Jun-2021: Cisco rolled out a range of Catalyst industrial routers, featuring 5G capabilities. Through this product launch, the company aimed to extend the capabilities of the enterprise network to the edge through security, flexibility, and scalability. Moreover, the new product range would allow businesses to conduct connected operations at scale along with the choice of management tools.
Jun-2021: Advantech Europe rolled out the WISE-1510-DOM DeviceOn Module, a novel certified wireless module. The new product aimed to aid in expediting the adoption of custom as well as semi-custom sensor nodes.
Feb-2021: Microchip introduced the LAN9360, the first hardware-based audio endpoint solution of the company. The new product aimed to interoperate infotainment devices of vehicles with the Ethernet AVB.
Oct-2020: Microchip unveiled its first-ever Wi-Fi microcontroller module. The new product comprises Microchip's Trust&GO-enabled verifiable and unique identity and aimed to offer a hardcoded, trustable, and verifiable identity to safely connect to the cloud.
Oct-2020: Microchip launched AVR DB MCU and PIC18-Q41. The new product lines aimed to offer increased efficiency and convenience in operating within a single design environment through the combination of multi-voltage operation and advanced analog peripherals.
Oct-2020: Microchip completed its acquisition of LegUp Computing, a startup based in Toronto. Under this acquisition, the company aimed to expand its FPGA-based edge compute solution stack through the addition of a high-level synthesis tool of LegUp. Furthermore, this acquisition would also offer the ability to Microchip's traditional Microchip MCU and MPU customers to leverage FPGAs as accelerators via a simple compiler.
Mar-2020: Microchip rolled out its full-stack embedded development solutions. With this launch, the company aimed to enable developers to simply connect to any significant core and major cloud through Bluetooth, Wi-Fi, or narrow band 5G technologies.
Feb-2020: Intel joined hands with Sinclair, a publicly traded American telecommunications conglomerate. Following this collaboration, Intel aimed to help Sinclair to offer the next-generation connected guest experience to hotel guests and staff via location-based analytics.
Aug-2018: Dell's Edge and IoT Solutions unit launched new solutions and bundles. Through this launch, the company aimed to streamline the adoption and implementation of scalable and secure solutions for IoT applications and edge computing.
Market Segments covered in the Report:
By Hardware
By End User
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures