室內農業系統的技術進步

Technology Advances in Indoor Farming Systems

出版日期: 2023年08月31日 | 出版商:

Frost & Sullivan | 英文 62 Pages | 商品交期: 最快1-2個工作天內

價格

簡介目錄

先進農業技術與受控環境農業的整合顯著提高了產量，同時實現了資源效率和糧食安全

世界正在經歷人口成長、供水減少、都市化和氣候變遷等持續趨勢，所有這些都導致耕地存量減少。聯合國糧食及農業組織（FAO）估計，到2050年世界人口將達到97億，2100年將超過110億。實現糧食安全需要在未來 30年度將全球糧食產量提高 70%。如今，地緣政治緊張局勢和新冠疫情等前所未有的情況正在擾亂供應鏈，限制某些地區人們獲取糧食的機會，特別是在已經遭受嚴重糧食不安全的國家。

在全球範圍內，人們一致認為農業必須採用更有效的方式來利用資源，使用更少的水和化學品來生產更高產量的作物。室內農業等新農業技術是解決這些挑戰的好方法。室內農業可以顯著提高作物（包括魚類）的產量，同時減少農業的環境足跡。向室內農業的過渡創造了獲得清潔、綠色食物來源的機會，提高了食物的營養價值，降低了運輸成本，縮短了食物的保存期限，並改善了蟲害、乾旱和生物安全問題。室內農業採用了被歸類為受控環境農業 (CEA) 的先進農業技術，其中包括最佳化植物生長條件的技術。 CEA 調整溫度、光照和濕度等變量，使農民能夠種植在某些氣候和天氣條件下不可能種植的植物。這種先進的農業技術有可能顯著提高作物產量，同時最佳化資源利用。

這項關於室內農業系統技術進步的研究涵蓋以下研究和分析領域：

室內農業技術概述、趨勢以及推動各種農業系統開發和採用的要素
專利現狀和成長機會促進室內農業的發展和採用
室內農業的主要相關人員

現代農業技術進步與創新的主要影響要素
室內農業解決了與傳統農業相關的關鍵挑戰
室內農業正成為傳統農業的替代品，正在重塑農業的未來
室內農業種植系統具有在受控環境中生產作物的獨特功能。
室內農業系統為種植者提供了糧食生產的彈性
成長促進因素
成長阻礙因素
分析範圍
分割

技術分析

CEA 效率的提升受到室內農民的歡迎
室內農業最佳化任何環境下的用水
泡泡盆栽作為一種新的栽培系統越來越受到農民的歡迎
各種栽培介質的開發使種植者可以選擇最適合其目的的介質。
北美和歐洲的垂直室內種植配合措施備受關注
亞太地區和其他亞太地區的室內農業採用趨勢正在加速

創新生態系統

椰殼纖維正在成為室內種植者的首選介質。
公司正在開發獨特的介質以提高產量。
LED 的進步促進室內農業的發展
自動化讓室內農場變得更智慧
物聯網的出現增加了室內農業的連結性
室內農場的成長將推動公司實施先進的基礎設施設置
本地公司提供易於安裝且高效運作的現代化基礎設施
自動化系統融合了 CEA 的先進技術
室內種植者正在採用氣培種植系統
在室內農業生態系統中，跨地區開展了許多夥伴關係和合作。
政府機構正在與國際參與者合作，以滿足當地的食品需求
室內農業正在引領學術機構和公司的研究和開發配合措施，以使其更加有效和有效率。
政府投資、大學發明和老牌公司正在加速室內農業
新興企業企業的崛起和對永續當地食品生產的投資增加有助於提高盈利和知名度。
創業投資正成為室內資金籌措最合適的投資工具
公司正在改造室內農業以滿足當地食品需求
公司正在考慮在城市環境中建立室內農場進行食品生產

專利分析

美國申請室內農業技術進步專利最多
本公司積極參與專利活動，以確立室內農業技術的獨特性

成長機會宇宙

成長機會1：引進農業太陽能光伏發電，減少對環境的負擔
成長機會2：室內種植草本和營養補充食品特產
成長機會 3：透過 CEA 加速再生農業

附錄

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簡介目錄

Product Code: DAAF

Integrating Advanced Farming Techniques with Controlled Environment Agriculture to Significantly Improve Yield while Enabling Resource Efficiency and Food Security

The world is experiencing unrelenting trends in population growth, decreasing water supply, urbanization, and climate change, all of which contributes to dwindling arable land stock. The United Nations (UN) Food and Agriculture Organization (FAO) estimates that the global population will reach 9.7 billion by 2050 and exceed 11 billion by 2100. To achieve food security, global food production will need to increase by up to 70% in the next 30 years. Today, unprecedented circumstances such as geopolitical tensions and pandemics are causing supply chain disruptions, limiting people's access to food in certain areas, particularly in countries that are already suffering from high levels of food insecurity.

Globally, the consensus is that agriculture must adopt more effective resource utilization methods, those that require less water and chemicals to produce crops with high yields. New farming technologies, such as indoor farming, provide an excellent way to meet these challenges. Indoor farming could increase crop (including fish) production substantially while decreasing the size of agriculture's environmental footprint. The shift to indoor farming would create access to a clean and green source of food, improve the nutritive value of food, lower transportation costs, and ameliorate food shelf-life as well as pests, droughts, and bio-security issues. Indoor farming incorporates advanced farming techniques classified as controlled environment agriculture (CEA) that comprises technologies to optimize growing conditions for plants. CEA regulates variables such as temperature, lighting, and humidity, allowing farmers to grow plants that would otherwise be impossible in certain climatic and weather conditions. These advanced farming techniques have the potential to significantly increase crop yield while optimizing resource utilization.

This study on the technology advances in indoor farming systems covers the following research and analysis areas:

Overview of indoor farming technologies, trends, and factors driving the development and adoption of various farming systems
Patent landscape and growth opportunities enabling the development and adoption of indoor farming
Major stakeholders active in the indoor farming landscape

Strategic Imperatives

Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on the Indoor Farming Industry
Growth Opportunities Fuel the Growth Pipeline Engine™
Research Methodology

Growth Opportunity Analysis

Key Factors Influencing Technological Advancements and Innovations in Modern Farming
Indoor Farming Solves Key Challenges Associated with Conventional Farming
Indoor Farming is Emerging as an Alternative to Traditional Farming and Is Reshaping the Future of Agriculture
Indoor Farming Growing Systems Are Incorporating Unique Features to Produce Crops in Controlled Environments
Indoor Farming Growing Systems Offer Growers Food Production Flexibility
Growth Drivers
Growth Restraints
Scope of Analysis
Segmentation

Technology Analysis

Improved Efficiency of CEA Is Gaining Popularity among Indoor Farmers
Indoor Farming Optimizes Water Usage for Operations in Any Environment
Bubbleponics Is Emerging as a New Growing System Preference among Farmers
The Development of Various Growing Media Helps Growers Choose the Right Type for Targeted Operations
North America and Europe are Making Notable Efforts to Advance Vertical Indoor Farming
Indoor Farming Adoption Trends Are Accelerating across Asia-Pacific and the Rest of the World

Innovation Ecosystem

Coco Coir Is Becoming a Preferred Growing Medium among Indoor Farmers
Companies Are Innovating Unique Growing Media for Improved Yield
Advancement of LEDs Is Catalyzing the Development of Indoor Farming
Automation Will Make Indoor Farms Smarter
IoT's Emergence Is Enhancing Connectivity in Indoor Farming Activities
The Growth of Indoor Farms Is Driving Businesses to Introduce Advanced Infrastructure Setups
Companies across Geographies Are Offering Contemporary Infrastructure Setups for Easy Installation and Effective Functioning
Automated Systems Are Incorporating Advanced Technologies for CEA
Aeroponics Growing Systems Are Finding Adoption among Indoor Growers
The Indoor Farming Ecosystem Is Seeing Various Partnerships and Collaborations across Geographies
Government Offices Are Allying with International Players to Address Local Food Requirements
Indoor Farming Is Leading to R&D Initiatives from Academic and Business Entities to Make It More Effective and Efficient
Government Investments, University Inventions, and Established Businesses Are Accelerating Indoor Farming
The Rise of Start-ups and More Investment in Sustainable and Local Food Production Are Contributing to Profitability and Recognition
Venture Capital Funding Is Emerging as the Most Preferred Investment Instrument toward Indoor Farming
Various Companies Are Transforming Indoor Farming to Address Local Food Requirements
Businesses Are Considering Indoor Farms to Produce Food in Urban Settings

Patent Analysis

United States Is Filing the Most Patents to Advance Indoor Farming Technologies
Businesses Are Actively Involved in Patent Activities to Establish the Uniqueness of their Indoor Farming Techniques

Growth Opportunity Universe

Growth Opportunity 1: Introduction of Agricultural Photovoltaics to Reduce Environmental Impact
Growth Opportunity 2: Indoor Cultivation of Herbs and Specialties for Nutraceuticals
Growth Opportunity 3: Accelerating Regenerative Farming with CEA