【レポートの概要(一部)】
TABLE OF CONTENTS
1 INTRODUCTION 29
1.1 OBJECTIVES 29
1.2 REPORT DESCRIPTION 30
1.3 MARKETS COVERED 30
1.4 STAKEHOLDERS 31
1.5 RESEARCH METHODOLOGY 31
1.5.1 MARKET SIZE ESTIMATION 32
1.5.2 KEY DATA TAKEN FROM SECONDARY SOURCES 34
1.5.3 KEY DATA TAKEN FROM PRIMARY SOURCES 35
1.5.4 ASSUMPTIONS MADE FOR THIS REPORT 36
1.5.5 KEY QUESTIONS ANSWERED 37
2 EXECUTIVE SUMMARY 38
3 PREMIUM INSIGHTS 40
3.1 SEED TREATMENT MARKET OVERVIEW 40
3.2 TECHNOLOGY TRENDS & AGRI-MODERNIZATION DRIVING MARKET DEMANDS 48
3.3 REGIONAL PRESENCE OF MARKET LEADERS 50
3.4 INSECTICIDES DOMINATING THE GLOBAL MARKET 52
3.5 DOMINANCE OF MAJOR CROPS ENHANCED DUE TO GM VARIANTS 54
4 MARKET OVERVIEW 56
4.1 INTRODUCTION 57
4.1.1 AGRO-MARKET RETAILERS HELP RAPID GROWTH IN SEED TREATMENT MARKET 57
4.2 SEED TREATMENT MARKET 60
4.2.1 COMMERCIAL SEED TREATMENTS 61
4.2.2 DOWNSTREAM SEED TREATMENTS 61
4.2.3 GROWER APPLIED SEED TREATMENTS 62
4.3 SEED MARKET: AN OVERVIEW 62
4.3.1 TYPES OF SEED 63
4.3.1.1 Seed Sources 64
4.3.1.1.1 Farm-saved seed 64
4.3.1.1.2 Seed supplied commercially 64
4.3.1.2 Seed Types 65
4.3.1.2.1 Conventional seed 65
4.3.1.2.2 GM seed 65
4.3.2 STAGES IN COMMERCIAL SEED PRODUCTION 66
4.3.2.1 Foundation or basic seed 66
4.3.2.2 Certified seed 66
4.3.3 SEED MARKET SHARE ANALYSIS 67
4.4 EVOLUTION OF SEED TREATMENT MARKET 68
4.5 WINNING IMPERATIVE 69
4.5.1 SEED TREATMENT AS A COMPLETE SOLUTION TO SAFEGAURD SEED INVESTMENTS 69
4.6 BURNING ISSUES 73
4.6.1 ISSUES IMPACTING INTERNATIONAL SEED MOVEMENT 73
4.6.2 ABSENCE OF COHESIVE REGULATORY BODY FOR SEED TREATMENT APPROVALS 74
4.7 DRIVERS 75
4.7.1 SEED TREATMENT AS A LOW-COST CROP PROTECTION SOLUTION 76
4.7.2 RISING PRICES OF GM CROPS CREATING A NEED FOR CROP PROTECTION 77
4.7.3 RISING WORLD POPULATION & FOOD REQUIREMENTS – “4 F’S(FOOD-FUEL-FEED-FIBER)” 78
4.7.4 REDUCED RISK OF EXCEEDING MINIMUM RESIDUE LEVEL 79
4.7.5 ACREAGE & ADVANCED TECHNOLOGIES WARRANT THE NEED FOR TREATED SEEDS 80
4.7.6 SOIL NUTRITION DEFICIENCIES CREATED
BY SHORTENED CROP ROTATION PRACTICES CREATE NEED FOR SEED TREATMENT 80
4.8 RESTRAINTS 81
4.8.1 DISCOURAGING GOVERNMENT REGULATIONS 81
4.8.2 LOW PERMITTED SHELF LIFE & DIFFICULTY IN DISPOSAL OF TREATED SEED 83
4.9 OPPORTUNITIES 83
4.9.1 RAPID GROWTH IN BIO-CONTROL SEED TREATMENT SOLUTIONS 83
4.9.2 STRONG PROGRESS IN NEW & EMERGING MARKETS – LATIN AMERICA & APAC 84
4.10 SEED TREATMENT EQUIPMENT: AN OVERVIEW 85
4.10.1 KEY FACTORS 85
4.10.1.1 Uniform coverage 85
4.10.1.2 Application volumes & rates 86
4.10.2 CONTINUOUS SYSTEM 86
4.10.3 BATCH SYSTEM 87
4.10.4 DUST/POWDER TREATER 88
4.10.5 SLURRY TREATER 89
4.10.6 ON-FARM/DIRECT TREATER 89
4.11 MARKET SHARE ANALYSIS 90
4.11.1 GLOBAL MARKET SHARE (VALUE) 91
4.11.1.1 BASF, BAYER, and Syngenta – Global leaders 91
4.11.1.2 Agreements between market leaders – A key trend 92
4.12 SWOT ANALYSIS 92
4.12.1 BASF 92
4.12.2 SYNGENTA 93
4.12.3 DUPONT 94
4.13 BAYER CROPSCIENCE 95
5 SEED TREATMENT MARKET, BY TYPE 96
5.1 INTRODUCTION 97
5.1.1 DRIVERS 98
5.1.1.1 Extensive product portfolios by market leaders to hold 85% of the global share 98
5.1.1.2 Chemical seed treatments continue to dominate 99
5.1.1.3 Insecticides hold major share whereas bio-control drives future growth 100
5.1.1.4 Global climatic changes translate into growing demands for fungicidal seed treatment 100
5.1.1.5 Strong demand growth from organic farming and integrated pest management (IPM) 101
5.1.1.6 Integrating bio-control products with conventional chemicals 102
5.1.1.7 Less regulatory pressure & worker/environment safety 102
5.1.1.8 New acquisitions and partnerships 103
5.1.2 RESTRAINT 103
5.1.2.1 Variable efficiency and low shelf life 103
5.1.3 OPPORTUNITIES 103
5.1.3.1 Plant extracts and oil-based seed treatments for organic farming 103
5.1.3.2 Seed treatment for abiotic stress 105
5.1.3.3 Abiotic stress limiting plant growth 106
5.1.3.4 Thermo-seeds 106
5.2 CHEMICAL SEED TREATMENT 108
5.2.1 DRIVER 109
5.2.1.1 Insecticide dominate value market; fungicides lead in volumes 109
5.2.2 INSECTICIDES 115
5.2.2.1 Global productivity and use of combination chemicals drive the demand for insecticides 115
5.2.2.2 Carbamates and pyrethroids dominate global insecticide market 121
5.2.2.2.1 Carbamates and organophosphates 122
5.2.2.2.2 Pyrethroids 122
5.2.2.2.3 Other seed treatment insecticides 123
5.2.3 FUNGICIDES 124
5.2.3.1 High economic impact has led to the use of broad spectrum fungicides 124
5.2.3.2 Rhizoctonia and Fusarium target fungi amongst other seed, soil, and airborne species 124
5.2.3.3 Triazoles and Diazoles dominate fungicidal seed treatment market 132
5.2.3.3.1 Benzimidazoles 133
5.2.3.3.2 Triazoles and diazoles 134
5.2.3.3.3 Dithiocarbamates 135
5.2.3.3.4 Others seed treatment fungicides 136
5.2.3.3.5 Carboxin 137
5.2.4 OTHERS 138
5.2.4.1 Micronutrients 138
5.2.4.2 Colorants 139
5.2.4.3 Polymers 140
5.2.4.4 Phytohormones 140
5.2.4.5 Safeners 140
5.3 NON–CHEMICAL SEED TREATMENT 141
5.3.1 DRIVER 141
5.3.1.1 Revolution in regulatory requirements revives non-chemical seed treatment practices 141
5.3.2 TRADITIONAL SEED TREATMENT 147
5.3.2.1 Oldest and still the most trusted and cost-effective method of seed treatment 147
5.3.2.1.1 Priming and pelleting 147
5.3.2.1.2 Hot water treatments 148
5.3.3 BIO-CONTROL 149
5.3.3.1 Soybean and Canola drive U.S. dominance in
bio-control market 150
5.3.3.2 New product launches for wheat and corn drive Latin American bio-control demand 152
5.3.3.3 China dominates; lack of Government initiatives holds back growth in APAC 154
5.4 OTHERS 157
5.4.1 NEMATICIDES 157
5.4.1.1 Harpin 157
5.4.1.1.1 Key feature: Multiple functionalities 158
5.4.1.1.2 Pros and cons 158
5.4.1.2 Abamectin 159
5.4.1.2.1 Key feature: Low toxicity to humans and animals 159
5.4.1.3 Spinosad 159
5.4.1.3.1 Key feature: Low cost and lasting effect 159
5.4.2 INOCULANTS 160
5.4.2.1 Rhizobium inoculants 162
5.4.2.1.1 Global demands synchronous with soybean market trends 162
5.4.2.2 Azospirillum inoculants 163
5.4.2.2.1 Research on root interaction can help boost efficiency and market demand 163
5.4.2.3 Other inoculants 164
5.4.2.3.1 Azotobacter 164
5.4.2.3.2 Acetobacter 164
5.4.2.4 Advantages of inoculation 165
5.4.2.5 Regulations for commercial inoculants 166
5.4.2.5.1 Commercial microbial inoculants enter market 167
5.5 SEED TREATMENT: APPLICATION TECHNIQUES 174
5.5.1 SEED ENCRUSTING 174
5.5.2 SEED PELLETING 175
6 SEED TREATMENT MARKET, BY TARGET PROTECTION 176
6.1 INTRODUCTION 177
6.1.1 KEY FEATURES 177
6.1.1.1 Key Motive: Improved crop stand, yields, and profitability 177
6.1.1.2 Fungicides most commonly used; used in combination with insecticides for efficiency 178
6.1.1.3 Changing norms and target pathogen physiologies warrant constant modifications 181
6.2 FUNGICIDES 181
6.2.1 KEY FEATURES 181
6.2.1.1 Aids seedling emergence in addition to protection 181
6.2.1.2 Non-volatile fungicides: The way ahead 181
6.2.2 CORN 182
6.2.2.1 Soil- and seed-borne pathogens: Key targets for seed treatment 182
6.2.2.2 Faulty crop planting and rotation practices make crop vulnerable 182
6.2.3 SOYBEAN 185
6.2.3.1 Economic impact of seedling disease: Focus of seed treatment 185
6.2.4 COTTON 187
6.2.4.1 Global acceptance of Bt cotton and the resultant rising prices drive the cotton market 187
6.2.4.2 Ongoing research; seed treatment demand not growing at the rate of demand for crop 189
6.2.5 WHEAT 189
6.2.5.1 Seed-borne fungal and root rots remain the key target for seed treatment 189
6.2.6 POTATO 192
6.2.6.1 Low commodity price has restricted market growth 192
6.2.7 CANOLA 194
6.2.7.1 Economic losses due to blackleg and high value of canola influence seed treatment practices 196
6.2.8 RICE 197
6.2.8.1 Low-cost production along with protection from fungal diseases 197
6.2.8.2 Field practices, temperature, and rice variant greatly influence need for treatment 198
6.2.9 VEGETABLES 199
6.2.9.1 Modernization of sector revives seed treatment practices, especially for exotic variants 199
6.3 INSECTICIDES 201
6.3.1 DRIVERS 201
6.3.1.1 R&D influential in driving the insecticide seed treatment segment 201
6.3.1.2 Used in combination with other pesticides due to low dosage level requirement 202
6.4 NEMATICIDES 203
6.4.1 KEY FEATURES 203
6.4.1.1 Target-specific product developments lead to demand for nematicides 203
6.4.1.2 Developments of nematicides help boost adoption of seed treatment practices 204
7 SEED TREATMENT MARKET, BY TARGET CROP 205
7.1 INTRODUCTION 206
7.1.1 DRIVERS 206
7.1.1.1 Seed value and vulnerability influences demand dynamics 206
7.1.1.2 Corn consumption for biofuels boosts production and seed treatment requirements 208
7.1.1.3 Asia and Europe drive wheat seed treatment market with increasing area under cultivation 208
7.2 CEREALS & GRAINS 210
7.2.1 DRIVER 210
7.2.1.1 Technology premiums and conventional seeds drive the growth in demand 211
7.2.2 CORN 211
7.2.2.1 Leading market players focus on corn for product development 211
7.2.2.2 Vulnerability to soil-borne pathogens drives the need for seed treatment 211
7.2.2.3 Strong evidence of seedling disease in corn creates opportunities for market 214
7.2.3 RICE 215
7.2.3.1 R&D and development of BT rice boost need for seed treatment practices 215
7.2.3.2 Hybrid seeds, privatization of market: Key drivers for increasing demand for seed treatment 217
7.2.4 WHEAT 218
7.2.4.1 Wheat fungal vulnerability drives need for seed treatment solutions 218
7.2.4.2 Europe: Dominates and Drives the wheat seed treatment demand 220
7.2.4.3 Sorghum 221
7.2.4.4 Heavy economic losses due to smut translate into need for seed treatment 221
7.3 OILSEEDS 223
7.3.1 DRIVER 223
7.3.1.1 New application fields drive the need for enhanced production and seed treatment practices 223
7.3.2 SOYBEAN 225
7.3.2.1 Increasing global oil prices and bio fuel demand propelling market demand 225
7.3.2.2 Global acceptance of GM seeds and seed treatment due to rising requirements 226
7.3.2.3 Combined growth of biotech trait and seed market: Key influencer on seed treatment demand 228
7.3.3 SUNFLOWER 229
7.3.3.1 Rising prices and high demand for production of sunflower oil globally 229
7.3.3.2 Biotech trait seed market has more than doubled thereby driving the need for seed treatment 231
7.3.4 COTTON 231
7.3.4.1 Changing dynamics in China and India influencing global price trends 232
7.3.4.2 Increased prices revitalized the cotton seed and seed treatment markets 233
7.3.4.3 High market share of trait premium seeds drives demand for seed treatment 235
7.3.5 CANOLA 236
7.3.5.1 Biofuel preference for Canola drives demand for higher production volumes 236
7.3.5.2 High economic impact of fungal diseases boosts demand for seed treatment 236
7.3.5.3 Leading trait premium seed manufacturers also push the seed treatment market 239
7.4 OTHERS 240
7.4.1 TURF/FORAGE GRASSES, ALFALFA 241
7.4.1.1 Seedling blight and damping off disease drive the market 241
7.4.1.2 Progressive substitution of corn as feeds boosts market for alfalfa 243
7.4.2 SUGARBEETS 244
7.4.2.1 Subsidy support for ethanol production revives sugar beets market 244
7.4.2.2 Regulatory challenges cast uncertainty on future demands 246
7.4.3 VEGETABLES 247
7.4.3.1 Increasing volume of small seeded vegetables drives seed treatment requirements 248
8 SEED TREATMENT TECHNOLOGIES: THE FUTURE PROSPECTIVE 250
8.1 INTRODUCTION 250
8.1.1 EVOLUTION OF CROP PROTECTION 250
8.1.2 IMPERATIVE NOVEL SEED TREATMENT METHODS 251
8.2 GENETIC ENGINEERING: KEY TO MODERN AGRICULTURE 252
8.2.1 PROBLEMS ASSOCIATED WITH PROMOTING GENETICALLY MODIFIED FOODS 253
8.2.1.1 Legislative & regulatory hurdles 253
8.2.1.2 Ambiguous European laws governing GM foods 253
8.2.1.3 GM labeling 254
8.2.1.4 Consumer antagonism: Major deterrent 255
8.3 NON-TRANSGENIC, NON-GMO BIOTECHNOLOGY CROPS 256
8.3.1 TECHNOLOGY TO REPLACE THE IMPACT OF RESOURCES 257
8.3.1.1 Crops evolving into bio-factories 257
8.4 CIBIUS GLOBAL 258
8.4.1 TECHNICAL PROCESS 259
8.4.2 ADVANTAGES 260
8.5 PIONEER (DUPONT) 261
8.5.1 ACCELERATED YIELD TECHNOLOGY (AYT) 261
8.5.2 ADVANTAGES 262
8.6 OKANAGAN SPECIALTY FRUITS INC. 262
8.6.1 TECHNICAL PROCESS 262
8.6.2 KEY BENEFIT 263
8.6.3 MARKET PROSPECTS 263
8.7 MORFLORA 264
8.7.1 TRAITUP PLATFORM: A NEW PARADIGM 264
8.7.1.1 An innovative non-transgenic technology 266
8.7.2 PLATFORM FOR TRAIT INTRODUCTION IN SEEDS 266
8.7.2.1 Fastest method to introduce new trait 266
8.7.2.2 Cost effective 267
8.7.2.3 A complete crop protection solution 267
8.7.3 INTELLECTUAL PROPERTY 268
8.7.4 TECHNICAL PROCESS 268
8.7.5 ADVANTAGES 270
8.7.6 SUMMARY 270
9 SEED TREATMENT MARKET, BY GEOGRAPHY 271
9.1 INTRODUCTION 272
9.1.1 DRIVERS 272
9.1.1.1 Regulatory requirements beneficial for seed treatment market 272
9.1.1.2 GM seed trends in Americas translate into demands for seed treatment 273
9.2 NORTH AMERICA 274
9.2.1 DRIVERS 274
9.2.1.1 Consumer push for organic foods drives bio-control seed treatment market 274
9.2.1.2 EPA and USDA norms have provided a boost to seed treatment practices 275
9.2.2 U.S. 279
9.2.2.1 Saturated market; growth driven by bio-control seed treatment demand 280
9.2.3 MEXICO 280
9.2.3.1 Corn and wheat fungicidal requirements drive growth in market 281
9.2.4 CANADA 282
9.2.4.1 Proximity and strong research system translate to the growth of the market 282
9.3 EUROPE 284
9.3.1 DRIVERS 284
9.3.1.1 Biotech product approvals revive market growth 284
9.3.1.2 Push for organic farming puts focus on non-chemical seed treatment market 286
9.3.1.3 Central and East Europe drive the growth in fungicidal seed treatment market 287
9.3.2 U.K. 289
9.3.2.1 Bio-control seed treatment products revive a declining U.K. market 290
9.3.2.2 Wheat, rice, and corn drive U.K. market growth 290
9.3.3 ITALY 292
9.3.3.1 Ban on popular chemicals and stringent regulations restrict growth 292
9.3.4 FRANCE 294
9.3.4.1 Continuous dominance in Europe; driven by cereals and oilseeds 294
9.3.5 SWEDEN 296
9.3.5.1 Product innovations boost non-chemical seed treatment practices 296
9.3.6 GERMANY 298
9.3.6.1 Potato, grains, and cereals continue to drive German agri-sector 298
9.3.6.2 Organic food hampers chemical seed treatment demand; boosts bio-control agents 299
9.4 ASIA-PACIFIC 300
9.4.1 DRIVERS 300
9.4.1.1 Increasing food demands and decreasing arable land 300
9.4.1.2 China, India, and Australia drive APAC market trends 303
9.4.1.3 Vague regulatory practices aid manufacturers in expanding presence in market 303
9.4.2 JAPAN 306
9.4.2.1 Driving Force: Transformation in Regulations 306
9.4.2.2 Tomatoes and sugar beets drive Japanese seed treatment demand 307
9.4.3 THAILAND 308
9.4.3.1 Seed-borne pathogens targeting cotton, rice, and corn drive market demand 308
9.4.4 AUSTRALIA 310
9.4.4.1 Government and federal support drives domestic market growth and efficiency 310
9.4.5 CHINA 311
9.4.5.1 Subsidies offered by Chinese government support market growth 311
9.4.5.2 Restructuring of regulatory norms has positive implications on seed treatment market 311
9.4.6 INDIA 314
9.4.6.1 Inappropriate deep rooted distribution setup hampers growth 314
9.4.6.2 Lucrative destination due to absence of market leader 314
9.4.6.3 Advancement of biotech seed treatment practices 316
9.5 LATIN AMERICA 317
9.5.1 DRIVERS 317
9.5.1.1 Economic reforms drive regional market growth 317
9.5.1.2 Rising area under cultivation and adoption of GM seeds in Brazil and Argentina key to growth 320
9.5.2 BRAZIL 321
9.5.2.1 Driving Force: Rapid Expansion Of Agricultural Lands 321
9.5.2.2 Conducive climatic conditions for insects translate into rising need for seed treatment practices 322
9.5.2.3 Leadership in plant biotechnology positively impacts the seed treatment consumption 322
9.5.3 ARGENTINA 323
9.5.3.1 More area under GM crops gives rise to opportunities for seed treatment 323
9.6 ROW 324
9.6.1 RUSSIA 328
9.6.2 SOUTH AFRICA 329
10 COMPETITIVE LANDSCAPE 331
10.1 INTRODUCTION 332
10.2 AGREEMENTS, COLLABORATIONS & JOINT VENTURES: MOST PREFERRED STRATEGY 332
10.2.1 EXPANSIONS & INVESTMENTS 334
10.2.2 DUPONT & MONSANTO: MOST ACTIVE COMPANIES 335
10.3 MERGERS & ACQUISITIONS 336
10.4 EXPANSIONS & INVESTMENTS 339
10.5 NEW PRODUCT LAUNCHES 344
10.6 AGREEMENTS, COLLABORATIONS & JOINT VENTURES 349
11 COMPANY PROFILES 360
(Company at a Glance, Recent Financials, Products & Services, Strategies & Insights, & Recent Developments)*
11.1 BAYER CROPSCIENCE AG 360
11.2 E.I. DU PONT DE NEMOURS AND COMPANY 365
11.3 MONSANTO 377
11.4 BASF SE 388
11.5 ADVANCED BIOLOGICAL MARKETING 396
11.6 MORFLORA 400
11.7 NOVOZYMES A/S 402
11.8 NUFARM LIMITED 406
11.9 SUMITOMO CHEMICAL COMPANY LIMITED 412
11.10 CHEMTURA CORPORATION 415
*Details on company at a glance, recent financials, products & services, strategies & insights, & recent developments might not be captured in case of unlisted companies.
【レポート販売概要】
■ タイトル:世界における作物の種子処理(殺菌剤、殺虫剤、バイオコントロール)市場■ 英文:Seed Treatment Market by Type (Chemical & Non-Chemical), by Application (Fungicide, Insecticide, Bio-Control, and Others) and by Crop (Cereals, Oilseeds, and Others) - Global Trends, Forecasts and Technical Insights up to 2019
■ 発行日:2014年7月
■ 調査会社:MarketsandMarkets
■ 商品コード:MAM-AGI-2581
■ 調査対象地域:グローバル
- 鉄道管理システムの世界市場:ソリューション別、サービス別(コンサルティング、システム統合・導入、サポート・保守)、地域別予測Global Railway Management System Market to reach USD 66.02 billion by 2025. Global Railway Management System Market valued approximately USD 28 billion in 2016 is anticipated to grow with a healthy growth rate of more than 10% over the forecast period 2017-2025. A railway management system combines solutions and associated services for improving the speed, safety, and reliability of rail services, …
- ナノファイバーの世界市場2016-2020About Nanofiber Nanofibers is a nano-object with the size of 1 billionth of a meter. The fibers are made through electrospinning, which is the most common and commercially used way of manufacturing nanofibers. Through this process, an electrified polymer solution is moved in a high voltage electric field to give elongated nanofibers. Many nanofibers are laid over one another to form a nano mat. A …
- セルライト(Cellulite):世界の治験レビュー(2015年上半期版)Cellulite Global Clinical Trials Review, H1, 2015 Summary GlobalData's clinical trial report, “Cellulite Global Clinical Trials Review, H1, 2015" provides an overview of Cellulite clinical trials scenario. This report provides top line data relating to the clinical trials on Cellulite. Report includes an overview of trial numbers and their average enrollment in top countries conducted across the g …
- 低温装置の世界市場分析:製品別(タンク、バルブ、ポンプ・気化器、真空ジャケットパイプ)、ガス別(窒素、酸素、アルゴン、天然ガス)、用途別(流通、貯蔵)、エンドユーザー別(石油・ガス、冶金、電子、電力・エネルギー、食品・飲料、ヘルスケア、海洋)、セグメント予測The global cryogenic equipment market is expected to reach USD 25.05 billion by 2022, according to a new report by Grand View Research, Inc. Stringent government initiatives and investments in emerging markets such as Brazil and India are expected to impel the product demand over the forecast period. Shale gas exploration has resulted in high natural gas production, thereby escalating demand in th …
- Osteopenia:グローバル臨床試験レビューH2, 2013Osteopenia Global Clinical Trials Review, H2, 2013 Summary GlobalData's clinical trial report, “Osteopenia Global Clinical Trials Review, H2, 2013" provides data on the Osteopenia clinical trial scenario. This report provides elemental information and data relating to the clinical trials on Osteopenia. It includes an overview of the trial numbers and their recruitment status as per the site of tri …
- 世界のウェアラブル医療機器市場Wearable medical devices are non-invasive, autonomous health tools, which aid in clinical monitoring beyond the hospitals. The applications of wearables range from monitoring glucose levels in blood, to managing chronic diseases such as heart diseases, asthma and diabetes. These devices generally provide noninvasive sensing, local processing, user feedback, and communication capabilities. In the l …
- ガラス基板の世界市場予測(~2022年):ホウケイ酸ガラス、シリコン、セラミック、石英ガラス、クォーツガラス基板The glass substrate market is estimated to be USD 1.49 Billion in 2017 and is projected to reach USD 1.97 Billion by 2022, at a CAGR of 5.7% between 2017 and 2022. The increasing use of LCDs in consumer durables, smart handheld devices, and automotive applications is one of the most significant factors projected to drive the growth of the glass substrate market. In addition, the growth of the semi …
- ウェアラブル技術動向:企業とソリューション分析Certain large consumer electronics suppliers, such as Sony, have entered into the wearable technology arena while others, such as Apple, have yet to stake a claim into what we see as a multi-billion dollar transformative industry. Wearable technology today represents an array of products including watches, wristbands, and various clothing items. There is not yet a clear winner, nor do we believe t …
- 世界のレーザ切断機械市場2015Global Laser Cutting Machines Market 2015 Industry Trend and Forecast 2020 is a professional and in-depth study on the current state of the Laser Cutting Machines industry. The report provides a basic overview of the industry including definitions, classifications, applications and industry chain structure. The Laser Cutting Machines market analysis is provided for the China markets including deve …
- Laerdal Medical AS:市場シェア分析Laerdal Medical AS Market Share Analysis Summary GlobalData’s new report, “Laerdal Medical AS Market Share Analysis” provides in-depth information on Laerdal Medical AS’s market position in the different medical equipment markets it operates in. The report provides Laerdal Medical AS market share information in two key market categories – Respiratory Disposables and Respiratory Devices. The report …
- アメリカのエンジニアリング・サービス・アウトソーシング市場About Engineering Services Outsourcing Engineering service providers are aggressively working to enhance their capabilities through expanding their service offerings along with technology consulting services and IP-based solutions to sustain in the competition. The market is evolving with more mature outsourcing/delivery models and strategy formulation for nurturing sector-specific talent and M&A. …
- Bluetoothスピーカーの世界市場2016-2020About Bluetooth Speakers Bluetooth speakers are wireless portable audio devices that receive audio signals over low-power radio waves instead of audio cables. For ideal exchange of data, the receiver should be within the defined range of wireless transfer capability of the speaker. The Bluetooth speaker market includes the following types of devices: AC-only Bluetooth speakers, DC-only Bluetooth s …
- 色検出センサの世界市場:カラーセンサ、発光センサ、コントラストセンサ、明るさセンサAbout the Color Detection Sensor Market Color detection sensors are used to sort colored products, identify coded markings, and verify or detect the presence of adhesive or date codes on a package. These sensors can detect even a slight variation in color and are used in several industries. The demand for color detection sensors will mainly be driven by automation across manufacturing industries d …
- スマート照明の世界市場予測(~2022年):スマート電球、照明器具、照明制御The global smart lighting market is expected to exhibit a good growth potential till 2022. The global market is expected to be valued at USD 19.47 Billion by 2022 and is expected to witness a shipment of 1.27 Billion units by 2022, at a CAGR of 27.1% and 71.3%, respectively, between 2016 and 2022. The need for energy-efficient lighting systems, development of IoT technology in the field of smart l …
- フローサイトメトリーの世界市場分析:技術別(セルベース、ビーズベース)、用途別(研究、産業、臨床)、エンドユーザー別(商業用、病院、学術、臨床研究)、製品・サービス別、セグメント予測、2014-2025The global flow cytometry market is expected to reach USD 8.0 billion by 2025, according to a new study by Grand View Research, Inc. The increasing incidence of infectious diseases and cancer is expected to upsurge the demand for flow cytometers for use in disease diagnosis over the coming years. In addition, higher number of physicians is inclined toward the usage of autologous and allogenic stem …
