市場調查報告書
商品編碼
1402000
到 2030 年雷射最低點儀器的全球市場預測:按類型、配銷通路、技術、應用、最終用戶和地區進行分析Laser Nadir Plummet Market Forecasts to 2030 - Global Analysis By Type (Rotating Laser Nadir Plummet, High-Precision Laser Nadir Plummet and Other Types), Distribution Channel, Technology, Application, End User and By Geography |
根據 Stratistics MRC 的數據,全球雷射最低點市場在預測期內將以 5.8% 的複合年成長率成長。
雷射天底垂線儀 (LNP) 是一種高精度光學工具,用於大地測量和測量,可精確測量垂直偏差。 LNP 由雷射光束組成,從設備向下引導至地面上的目標,該目標作為精確垂直測量的參考點。雷射光束的最低方向確保與重力精確對準,使 LNP 成為隧道、建築和大地測量的有用儀器。
大地測量需求不斷成長
精確測繪、土地測量和環境監測依賴大地測量,這需要精確的垂直控制點。 LNP 對於這些測量至關重要,因為它們可以進行毫米級精度的垂直測量,有助於為大地測量網路建立可靠的基準。由於世界快速都市化、基礎設施擴建和環境保護工作,對準確大地測量資料的需求不斷增加。此外,LNP 透過提供先進且有效的垂直偏差測量方法來滿足此需求,從而提高大地測量結果的整體準確性和可靠性。
整合挑戰
將LNP與目前的軟體平台、資料處理系統和測量設備有效整合可能很困難。嘗試將 LNP 整合到更全面的測量工作流程或地理空間資訊系統時,可能會出現相容性問題。標準化通訊協定和確保與其他設備的兼容性可能存在障礙。測量員經常使用整合解決方案。因此,將 LNP 整合到這些系統中的挑戰可能會阻礙 LNP 的廣泛採用。
增加科學研究的使用
LNP 在許多科學領域都至關重要,因為它們能夠以毫米級精度進行垂直測量。 LNP 支持構造學、地震研究、地質調查、土地變形監測、地質學等領域的研究。此外,進行需要準確空間資料的測試和調查的科學研究人員將受益於該設備提供精確垂直控制點的能力。
環境限制
由於精確的垂直測量需要直接瞄準地面,因此 LNP 很容易受到不利條件和其他環境問題的影響。連續的雨、霧或能見度模糊可能會導致設備故障,擾亂測量和調查。然而,在天氣模式不可預測的地區,依賴晴朗的空氣條件可能是一個缺點。此外,該設備的有效性可能會在有限或受限制的區域內受到影響,這可能會限制其在某些環境中的使用。
LNP 的生產和分銷因全球經濟危機、供應鏈中斷以及旅行和商業限制而受到干擾。對 LNP 等精密設備的需求直接受到基礎設施開發、建造計劃和測量業務的延誤和取消的影響。由於投資整體下降,可用於LNP等測量設備的資金有限。此外,疫情造成的員工流動趨勢也影響了實地測量和實地調查。
旋轉雷射最低點預計將是預測期內最大的部分
旋轉雷射最低點部分佔據了最大的市場佔有率,因為它配備了旋轉機構,可以在設備旋轉時進行連續測量,從而提高了 LNP 的多功能性和效率。與需要手動調整各種測量點的典型 LNP 相比,旋轉 LNP 可以簡化程序並提高各種測量應用的精確度。此外,這項創新在嚴重依賴準確和及時垂直測量的領域(例如大型建築計劃、基礎設施開發和大地測量)提供了顯著的好處。
微處理器控制領域預計在預測期內複合年成長率最高。
微處理器控制領域預計將出現良好的成長。透過將微處理器控制技術融入 LNP,測量和大地測量應用發生了革命性的變化。透過微處理器控制,這些先進的 LNP 提供自動化功能、即時資料處理和更高的準確性。此外,由於微處理器控制可自動執行複雜的計算並確保準確的垂直測量,因此測量員可以受益於生產力和準確性的提高。
由於基礎設施開發和建設活動增加,亞太地區在預測期內佔據最大佔有率。中國、印度、日本和韓國等國家在交通基礎設施、智慧城市舉措和都市化方面的支出強勁,推動了對高精度測量設備的需求。此外,該地區日益關注環境監測和通訊等領域的技術創新和數位化也促進了LNP的發展。
北美(尤其是美國和加拿大)的建築和基礎設施開發行業預計將實現盈利成長,從而導致對 LNP 等精密測量工具的需求增加。該市場得到可再生能源設備、住宅和商業建築以及交通基礎設施等大型計劃投資的支持。這也是由於精密測量工具越來越融入工程和施工工作流程以及新技術的使用。
According to Stratistics MRC, the Global Laser Nadir Plummet Market is growing at a CAGR of 5.8% during the forecast period. A Laser Nadir Plummet (LNP) is a high-precision optical tool used in geodesy and surveying to measure vertical deviations precisely. It is made up of a laser beam that is directed downward from the device to a ground target, which serves as a point of reference for accurate vertical measurements. Since the nadir, or straight-down, orientation of the laser beam guarantees precise alignment with gravity, LNPs are useful instruments in tunneling, construction, and geodetic surveys.
Rising demand for geodetic surveys
Accurate mapping, land surveying, and environmental monitoring depend on geodetic surveys, which require precise vertical control points. Due to their ability to provide vertical measurements with millimeter-level accuracy, LNPs are essential to these surveys as they help build reliable benchmarks for geodetic networks. The demand for precise geodetic data has increased due to the global upsurge in urbanization, infrastructural expansion, and environmental conservation initiatives. Additionally, LNPs meet this need by providing an advanced and effective method of measuring vertical deviations, enhancing the general accuracy and dependability of the results of geodetic surveys.
Integration challenges
It might be difficult to integrate LNPs effectively with current software platforms, data processing systems, and surveying equipment. When seeking to integrate LNPs into more comprehensive survey workflows or geospatial information systems, compatibility problems might arise. There may be obstacles in the way of standardizing communication protocols and guaranteeing compatibility with other equipment. Surveyors frequently use integrated solutions; therefore, any challenges in integrating LNPs into these systems could prevent their broad adoption.
Increasing use in scientific research
Because of their millimeter-level accuracy in vertical measurements, LNPs are essential to many scientific fields. LNPs support research on tectonics, earthquake research, geological surveys, land deformation monitoring, and geological science. Moreover, scientific researchers performing tests and investigations require exact spatial data and will find the equipment beneficial due to its capacity to provide accurate vertical control points.
Environmental limitations
Because precise vertical measurements require a direct line of sight to the ground, LNPs are susceptible to adverse conditions and other environmental problems. Conditions like persistent rain, haze, or blurred vision can cause the equipment to malfunction and perhaps interfere with measurements and surveys. However, a drawback in areas where weather patterns are unpredictable is the reliance on clear air conditions. Furthermore, the effectiveness of the device can be impaired in small or restricted areas, which might limit its use in certain settings.
The production and distribution of LNPs were disrupted by the worldwide economic collapse, disruptions in the supply chain, and limitations on travel and business. The need for precise instruments like LNPs was directly impacted by delays or cancellations in infrastructure development, construction projects, and surveying operations. Lower investment across the board limited the amount of funds that might be spent on surveying tools, such as LNPs. Furthermore, the tendency toward detached work brought on by the pandemic affected on-site measurements and field surveys.
The rotating laser nadir plummet segment is expected to be the largest during the forecast period
Rotating Laser Nadir Plummet segment held the largest share of the market because it includes a rotating mechanism that allowed for continuous measurements while the instrument rotates, increasing the LNPs' versatility and efficiency. The rotating LNP streamlines the procedure and increases accuracy in a variety of surveying applications, in contrast to typical LNPs that require human adjustments for various measurement points. Moreover, large-scale building projects, infrastructure development, and geodetic surveys all of which depend heavily on accurate and timely vertical measurements-benefit substantially from this innovation.
The microprocessor control segment is expected to have the highest CAGR during the forecast period
Microprocessor Control segment is expected to hold lucrative growth. Surveying and geodetic applications have been revolutionized by the incorporation of microprocessor control technology into LNPs. With their microprocessor control, these advanced LNPs provide automated functions, real-time data processing, and improved precision. Moreover, because the microprocessor control automates complex computations and guarantees accurate vertical measurements, surveyors benefit from improved productivity and accuracy.
Due to an increase in infrastructure development and construction activity, the Asia-Pacific region held the largest share over the projection period. Robust expenditures in transportation infrastructure, smart city initiatives, and urbanization are being witnessed by countries such as China, India, Japan, and South Korea, which is boosting demand for accurate surveying devices. Moreover, the region's increasing focus on technological innovation and digitalization in areas like environmental monitoring and telecommunications also contributes to the development of LNPs.
The construction and infrastructure development industries in North America, especially in the United States and Canada, are expected to grow profitably, which will lead to an increased demand for accurate surveying tools like LNPs. Large-scale project investments, such as those in renewable energy installations, residential and commercial buildings, and transportation infrastructure, are supporting the market. Additionally, due to the increasing trend of precise surveying tools being included in engineering and construction workflows, as well as the use of novel technologies.
Some of the key players in Laser Nadir Plummet market include Beijing UniStrong Science & Technology Co., Ltd, CHC Navigation, ComNav Technology Ltd, Geneq Inc, Hexagon AB, Hi-Target Surveying Instrument Co., Ltd, NAVCOM Technology, Inc, Nikon Corporation, North Surveying (Beijing) Instrument Co., Ltd, Ricoh Company, Ltd, Robert Bosch Tool Corporation, Ruide Surveying Instrument Co., Ltd, Sokkia Corporation, Suzhou FOIF Co., Ltd and Topcon Corporation.
In July 2023, Sweden's Hexagon acquires Canadian mine automation company HARD-LINE. Hexagon expects the acquisition to strengthen its mining automation and safety solutions.
In May 2023, Nikon releases the Z 8 full-frame mirrorless camera. The functionality and performance of Nikon's flagship mirrorless camera, condensed into an agile body. The Z 8 condenses the advanced functionality and performance of the flagship Nikon Z 9 into a compact and lightweight body while also maintaining superior robustness and reliability.
In May 2023, Nikon Releases New NSR-S625E ArF immersion scanner. The NSR-S625E, with the highest productivity in the history of Nikon's lithography systems thanks to its enhanced throughput and operational stability, will contribute to efficient production of various semiconductor devices.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.