Электронный каталог


 

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DDC 630.2085
I 64


    Innovations and trends in environmental and agricultural informatics / / Petraq Papajorgji and Francois Pinet, editors. - Hershey, PA : : Engineering Science Reference,, ©2018. - 1 online resource. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/01BE92B2-E95C-467C-9F2A-0C1F07E3C007. - ISBN 9781522559795 (electronic bk.). - ISBN 1522559795 (electronic bk.)
Description based on online resource; title from PDF title page (EBSCO, viewed June 7, 2018).

~РУБ DDC 630.2085

Рубрики: Agricultural informatics.

   Environmental sciences--Data processing.


   Agricultural informatics.


   Environmental sciences--Data processing.


   TECHNOLOGY & ENGINEERING / Agriculture / Agronomy / Crop Science


   TECHNOLOGY & ENGINEERING / Agriculture / Agronomy / General


Аннотация: "This book examines the design and implementation of information systems in the fields of agronomics, mathematics, economics, computer science, and the environment. It provides the latest innovative technologies in the construction of complex information systems and discusses the analysis, visualization, management, and dissemination of information, as well as the effective integration of agricultural and environmental information systems"--

Доп.точки доступа:
Papajorgji, Petraq J., \editor.\
Pinet, Francois, \editor.\

Innovations and trends in environmental and agricultural informatics / [Электронный ресурс] / Petraq Papajorgji and Francois Pinet, editors., ©2018. - 1 online resource. с.

1.

Innovations and trends in environmental and agricultural informatics / [Электронный ресурс] / Petraq Papajorgji and Francois Pinet, editors., ©2018. - 1 online resource. с.


DDC 630.2085
I 64


    Innovations and trends in environmental and agricultural informatics / / Petraq Papajorgji and Francois Pinet, editors. - Hershey, PA : : Engineering Science Reference,, ©2018. - 1 online resource. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/01BE92B2-E95C-467C-9F2A-0C1F07E3C007. - ISBN 9781522559795 (electronic bk.). - ISBN 1522559795 (electronic bk.)
Description based on online resource; title from PDF title page (EBSCO, viewed June 7, 2018).

~РУБ DDC 630.2085

Рубрики: Agricultural informatics.

   Environmental sciences--Data processing.


   Agricultural informatics.


   Environmental sciences--Data processing.


   TECHNOLOGY & ENGINEERING / Agriculture / Agronomy / Crop Science


   TECHNOLOGY & ENGINEERING / Agriculture / Agronomy / General


Аннотация: "This book examines the design and implementation of information systems in the fields of agronomics, mathematics, economics, computer science, and the environment. It provides the latest innovative technologies in the construction of complex information systems and discusses the analysis, visualization, management, and dissemination of information, as well as the effective integration of agricultural and environmental information systems"--

Доп.точки доступа:
Papajorgji, Petraq J., \editor.\
Pinet, Francois, \editor.\

DDC 338.1/6
H 22


    Handbook of research on smart farming technologies for sustainable agricultural development / / Ramesh C. Poonia, Xiao-Zhi Gao, Linesh Raja, Sugam Sharma, and Sonali Vyas, editors. - Hershey, PA : : Engineering Science Reference (an imprint of IGI Global),, 2018. - 1 online resource. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/4876E74F-EE1B-4710-B15E-2DC7104AE98E. - ISBN 9781522559108 (electronic bk.). - ISBN 1522559108 (electronic bk.)
Print version record.
Параллельные издания: Print version: : Handbook of research on smart farming technologies for sustainable agricultural development. - Hershey, PA : Engineering Science Reference (an imprint of IGI Global), 2018. - ISBN 9781522559092

~РУБ DDC 338.1/6

Рубрики: Agricultural innovations.

   Agricultural informatics.


   Agricultural productivity.


   Agricultural informatics.


   Agricultural innovations.


   Agricultural productivity.


   BUSINESS & ECONOMICS / Industries / General


Аннотация: "This book discusses the recent advancement in farming in terms of informatics and communication. It also explores how to improve productivity by introducing sensors, automated machines, smart phones; yield meters and drones"--Provided by publisher.

Доп.точки доступа:
Poonia, Ramesh C., (1979-) \editor.\

Handbook of research on smart farming technologies for sustainable agricultural development / [Электронный ресурс] / Ramesh C. Poonia, Xiao-Zhi Gao, Linesh Raja, Sugam Sharma, and Sonali Vyas, editors., 2018. - 1 online resource. с.

2.

Handbook of research on smart farming technologies for sustainable agricultural development / [Электронный ресурс] / Ramesh C. Poonia, Xiao-Zhi Gao, Linesh Raja, Sugam Sharma, and Sonali Vyas, editors., 2018. - 1 online resource. с.


DDC 338.1/6
H 22


    Handbook of research on smart farming technologies for sustainable agricultural development / / Ramesh C. Poonia, Xiao-Zhi Gao, Linesh Raja, Sugam Sharma, and Sonali Vyas, editors. - Hershey, PA : : Engineering Science Reference (an imprint of IGI Global),, 2018. - 1 online resource. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/4876E74F-EE1B-4710-B15E-2DC7104AE98E. - ISBN 9781522559108 (electronic bk.). - ISBN 1522559108 (electronic bk.)
Print version record.
Параллельные издания: Print version: : Handbook of research on smart farming technologies for sustainable agricultural development. - Hershey, PA : Engineering Science Reference (an imprint of IGI Global), 2018. - ISBN 9781522559092

~РУБ DDC 338.1/6

Рубрики: Agricultural innovations.

   Agricultural informatics.


   Agricultural productivity.


   Agricultural informatics.


   Agricultural innovations.


   Agricultural productivity.


   BUSINESS & ECONOMICS / Industries / General


Аннотация: "This book discusses the recent advancement in farming in terms of informatics and communication. It also explores how to improve productivity by introducing sensors, automated machines, smart phones; yield meters and drones"--Provided by publisher.

Доп.точки доступа:
Poonia, Ramesh C., (1979-) \editor.\

DDC 333.70285
E 58


    Environmental and agricultural informatics : : concepts, methodologies, tools, and applications / / [edited by] Information Resources Management Association. - Hershey, PA : : Engineering Science Reference, an imprint of IGI Global,, [2020]. - 1 online resource (3 volumes) : il. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/266C8E09-B56D-4D70-8F68-36957749222E. - ISBN 1522596224 (Ebook). - ISBN 9781522596226 (electronic bk.)
Print version cataloged as a monographic set by the Library of Congress. Description based on online resource; title from digital title page (viewed on November 11, 2019).
    Содержание:
Volume I. Section 1. Fundamental concepts and theories. Chapter 1. Technological innovation and the agricultural sustainability: what compatibility for the mechanization? ; Chapter 2. Practice of green marketıng activities in the organic agricultural sector in Turkey ; Chapter 3. Rights of nature to protect human rights in times of environmental crisis ; Chapter 4. The impact of Kisan call centers on the farming sector ; Chapter 5. Fundamentals of electrostatic spraying: basic concepts and engineering practices ; Chapter 6. Aggressions of the socio-economic system on the natural capital -- Section 2. Development and design methodologies. Chapter 7. Appropriate extension methodologies for agricultural development in emerging economies ; Chapter 8. Agropreneurship among Gen Y in Malaysia: the role of academic institutions ; Chapter 9. Application of information communication technologies for agricultural development through extension services: a review ; Chapter 10. Strategic positioning of Turkey agricultural products on the agricultural world market ; Chapter 11. Stakeholder agriculture: innovation from farm to store ; Chapter 12. Striking a perfect fit in leadership style for effective farmer training in Botswana ; Chapter 13. Rebirth of a program via community, industry, and philanthropic support ; Chapter 14. Impact on agricultural sustainability of maghreb countries: an empirical analysis by 3SLS ; Chapter 15. Deployment of wireless sensor networks for soil macronutrients measurements in farms ; Chapter 16. Industrial wastewater management in the context of climate change adaptation in selected cities of India: a business approach ; Chapter 17. Sericulture industry: a bonanza to strengthen rural population in India ; Chapter 18. Design for autonomy: water resources in ladakh -- Section 3. Tools and technologies. Chapter 19. Web based automatic soil chemical contents monitoring system ; Chapter 20. The empirical study on the evolutionary game based agricultural products supply chain ; Chapter 21. IoT based agriculture as a cloud and big data service: the beginning of digital India ; Chapter 22. Icts for agricultural development and food security in Developing nations ; Chapter 23. Exploring alternative distribution channels of agricultural products ; Chapter 24. Mobile networks and Indian agricultural sector ; Chapter 25. Sustainability assessment in a geographical region and of the activities performed -- Volume II. Chapter 26. Environmental audit in integrated audit system ; Chapter 27. Spatio-temporal variability of seasonal drought over the dobrogea region ; Chapter 28. The role of mobile phones use on agricultural output and household income in rural Rwanda ; Chapter 29. Mobile robotics ; Chapter 30. Farmers' access and use of mobile phones for improving the coverage of agricultural extension service: a case of kilosa district, Tanzania ; Chapter 31. Biological alchemy: gold from garbage or garbage into gold ; Chapter 32. Making agricultural learning accessible: examining gender in the use of animations via mobile phones ; Chapter 33. A genetic algorithm to goal programming model for crop production with interval data uncertainty ; Chapter 34. Mobile vision for plant biometric system ; Chapter 35. Demand for food diversity in Romania ; Chapter 36. Simulation-based approaches for ecological niche modelling: a geospatial reference -- Section 4. Utilization and applications. Chapter 37. Information societies to interactive societies: ICT adoptions in the agriculture sector in Sri Lanka ; Chapter 38. A case study of innovation platforms for agricultural research, extension, and development: implications for non-formal leadership and adult learning ; Chapter 39. Economic transformation of Austrian agriculture since EU accession ; Chapter 40. Economic growth and climate change: an exploratory country-level analytics study ; Chapter 41. The role of irrigation in the development of agriculture: Srem Ddistrict (Serbia) ; Chapter 42. Characteristics development of agriculture and agricultural policy Southeast European countries ; Chapter 43. Trends and transformations in European agricultural economy, rural communities and food sustainability in context of new common agricultural policy (CAP) reforms ; Chapter 44. The use of complementary virtual and real scientific models to engage students in inquiry: teaching and learning climate change science ; Chapter 45. The temporal and spatial development of organic agriculture in Turkey ; Chapter 46. Climate change and land suitability for potato cultivation in India ; Chapter 47. Strengthening food security with sustainable practices by smallholder farmers in lesser developed economies ; Chapter 48. A study of different color segmentation techniques for crop bunch in Arecanut ; Chapter 49. Applying indigenous knowledge in agricultural extension in Zimbabwe ; Chapter 50. Multiple exploration of entrepreneurs' suggestions for agricultural development of local regional units in Greece -- Volume III. Chapter 51. Agricultural productivity in Indonesian provinces ; Chapter 52. Importance of sustainable rural development through agrarian reforms: an Indian scenario ; Chapter 53. Mitigation of climate change impacts through treatment and management of low quality water for irrigation in Pakistan ; Chapter 54. Rural innovations: text and cases ; Chapter 55. Low carbon energy innovations systems in natural resource rich Developing countries: the case of Brazil -- Section 5. Organizational and social implications. Chapter 56. The collective aestheticization of farming as participatory civic engagement ; Chapter 57. Inter linkages of water, climate, and agriculture ; Chapter 58. Does nonfarm income affect agricultural income and investment in Pakistan? ; Chapter 59. Social and environmental impacts on agricultural development ; Chapter 60. Marketing of agricultural commodities in India ; Chapter 61. An analysis of mobile phone use in Nigerian agricultural development ; Chapter 62. Farmer suicides in India: a case of globalisation compromising on human rights ; Chapter 63. Environmental change and the emergence of infectious diseases: a regional perspective from South America ; Chapter 64. Information need and seeking behavior of farmers in Laduba community of Kwara State, Nigeria ; Chapter 65. Congo basin's shrinking watersheds: potential consequences on local communities ; Chapter 66. Nitrate, total ammonia, and total suspended sediments modeling for the mobile river watershed ; Chapter 67. Impact of climate change on potato production in India ; Chapter 68. Rift valley fever and the changing environment: a case study in East Africa ; Chapter 69. Impact of overpopulation on land use pattern -- Section 6. Managerial impact. Chapter 70. Characterization and management concerns of water resources around pallikaranai Marsh, South Chennai ; Chapter 71. Managerial reactions to ambiguous environmental changes: attention, reasoning, and erratic decisions ; Chapter 72. Assessing the readiness of farmers towards cold chain management: evidences from India -- Section 7. Critical issues and challenges. Chapter 73. The loss and damage of environmental ethics in the threshold of African culture: environmental ethics and African culture ; Chapter 74. Understanding glacial retreat in the Indian Himalaya: historical trends and field studies from a large glacier ; Chapter 75. Segmenting paddy farmer's attitude and behavior: a study towards the green fertilizer technology adoption among Malaysian paddy farmers adoption of GFT ; Chapter 76. Competitiveness of Turkey in the sectoral transformation process: a comparative analysis with the BRIC countries ; Chapter 77. Sustainability, environmental sustainability, and sustainable tourism: advanced issues and implications ; Chapter 78. Are GM crops the answer to Africa's critical food security status?: learning from the experiences of developing countries ; Chapter 79.
Agricultural growth accounting and total factor productivity in Jordan: trends, determinants, and future challenges ; Chapter 80. Human overpopulation: impact on environment.

~РУБ DDC 333.70285

Рубрики: Environmental sciences--Data processing.

   Environmental monitoring.


   Agricultural informatics.


   Agriculture--Data processing.


   Environmental sciences--Data processing.


Аннотация: "The digital age has presented an exponential growth in the amount of data available to individuals looking to draw conclusions based on given or collected information across industries. This is evident in the environmental and agricultural industries as well. In order to successfully plan preventive measures and solve current environmental problems, efficient and effective information processing of a wide range of environmental data is needed. Environmental and Agricultural Informatics: Concepts, Methodologies, Tools, and Applications is a vital reference source that examines the design, development, and implementation of complex agricultural and environmental information systems to quickly process and access environmental data in order to make informed decisions for the protection of the environment. Highlighting a range of topics such as information processing and management, environmental data, and sustainable agriculture, this multi-volume book is ideally designed for environmentalists, agriculturalists, researchers, professionals, academics, students, and scientists."--Publisher's website.

Доп.точки доступа:
Information Resources Management Association,

Environmental and agricultural informatics : [Электронный ресурс] : concepts, methodologies, tools, and applications / / [edited by] Information Resources Management Association., [2020]. - 1 online resource (3 volumes) с. (Введено оглавление)

3.

Environmental and agricultural informatics : [Электронный ресурс] : concepts, methodologies, tools, and applications / / [edited by] Information Resources Management Association., [2020]. - 1 online resource (3 volumes) с. (Введено оглавление)


DDC 333.70285
E 58


    Environmental and agricultural informatics : : concepts, methodologies, tools, and applications / / [edited by] Information Resources Management Association. - Hershey, PA : : Engineering Science Reference, an imprint of IGI Global,, [2020]. - 1 online resource (3 volumes) : il. - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/266C8E09-B56D-4D70-8F68-36957749222E. - ISBN 1522596224 (Ebook). - ISBN 9781522596226 (electronic bk.)
Print version cataloged as a monographic set by the Library of Congress. Description based on online resource; title from digital title page (viewed on November 11, 2019).
    Содержание:
Volume I. Section 1. Fundamental concepts and theories. Chapter 1. Technological innovation and the agricultural sustainability: what compatibility for the mechanization? ; Chapter 2. Practice of green marketıng activities in the organic agricultural sector in Turkey ; Chapter 3. Rights of nature to protect human rights in times of environmental crisis ; Chapter 4. The impact of Kisan call centers on the farming sector ; Chapter 5. Fundamentals of electrostatic spraying: basic concepts and engineering practices ; Chapter 6. Aggressions of the socio-economic system on the natural capital -- Section 2. Development and design methodologies. Chapter 7. Appropriate extension methodologies for agricultural development in emerging economies ; Chapter 8. Agropreneurship among Gen Y in Malaysia: the role of academic institutions ; Chapter 9. Application of information communication technologies for agricultural development through extension services: a review ; Chapter 10. Strategic positioning of Turkey agricultural products on the agricultural world market ; Chapter 11. Stakeholder agriculture: innovation from farm to store ; Chapter 12. Striking a perfect fit in leadership style for effective farmer training in Botswana ; Chapter 13. Rebirth of a program via community, industry, and philanthropic support ; Chapter 14. Impact on agricultural sustainability of maghreb countries: an empirical analysis by 3SLS ; Chapter 15. Deployment of wireless sensor networks for soil macronutrients measurements in farms ; Chapter 16. Industrial wastewater management in the context of climate change adaptation in selected cities of India: a business approach ; Chapter 17. Sericulture industry: a bonanza to strengthen rural population in India ; Chapter 18. Design for autonomy: water resources in ladakh -- Section 3. Tools and technologies. Chapter 19. Web based automatic soil chemical contents monitoring system ; Chapter 20. The empirical study on the evolutionary game based agricultural products supply chain ; Chapter 21. IoT based agriculture as a cloud and big data service: the beginning of digital India ; Chapter 22. Icts for agricultural development and food security in Developing nations ; Chapter 23. Exploring alternative distribution channels of agricultural products ; Chapter 24. Mobile networks and Indian agricultural sector ; Chapter 25. Sustainability assessment in a geographical region and of the activities performed -- Volume II. Chapter 26. Environmental audit in integrated audit system ; Chapter 27. Spatio-temporal variability of seasonal drought over the dobrogea region ; Chapter 28. The role of mobile phones use on agricultural output and household income in rural Rwanda ; Chapter 29. Mobile robotics ; Chapter 30. Farmers' access and use of mobile phones for improving the coverage of agricultural extension service: a case of kilosa district, Tanzania ; Chapter 31. Biological alchemy: gold from garbage or garbage into gold ; Chapter 32. Making agricultural learning accessible: examining gender in the use of animations via mobile phones ; Chapter 33. A genetic algorithm to goal programming model for crop production with interval data uncertainty ; Chapter 34. Mobile vision for plant biometric system ; Chapter 35. Demand for food diversity in Romania ; Chapter 36. Simulation-based approaches for ecological niche modelling: a geospatial reference -- Section 4. Utilization and applications. Chapter 37. Information societies to interactive societies: ICT adoptions in the agriculture sector in Sri Lanka ; Chapter 38. A case study of innovation platforms for agricultural research, extension, and development: implications for non-formal leadership and adult learning ; Chapter 39. Economic transformation of Austrian agriculture since EU accession ; Chapter 40. Economic growth and climate change: an exploratory country-level analytics study ; Chapter 41. The role of irrigation in the development of agriculture: Srem Ddistrict (Serbia) ; Chapter 42. Characteristics development of agriculture and agricultural policy Southeast European countries ; Chapter 43. Trends and transformations in European agricultural economy, rural communities and food sustainability in context of new common agricultural policy (CAP) reforms ; Chapter 44. The use of complementary virtual and real scientific models to engage students in inquiry: teaching and learning climate change science ; Chapter 45. The temporal and spatial development of organic agriculture in Turkey ; Chapter 46. Climate change and land suitability for potato cultivation in India ; Chapter 47. Strengthening food security with sustainable practices by smallholder farmers in lesser developed economies ; Chapter 48. A study of different color segmentation techniques for crop bunch in Arecanut ; Chapter 49. Applying indigenous knowledge in agricultural extension in Zimbabwe ; Chapter 50. Multiple exploration of entrepreneurs' suggestions for agricultural development of local regional units in Greece -- Volume III. Chapter 51. Agricultural productivity in Indonesian provinces ; Chapter 52. Importance of sustainable rural development through agrarian reforms: an Indian scenario ; Chapter 53. Mitigation of climate change impacts through treatment and management of low quality water for irrigation in Pakistan ; Chapter 54. Rural innovations: text and cases ; Chapter 55. Low carbon energy innovations systems in natural resource rich Developing countries: the case of Brazil -- Section 5. Organizational and social implications. Chapter 56. The collective aestheticization of farming as participatory civic engagement ; Chapter 57. Inter linkages of water, climate, and agriculture ; Chapter 58. Does nonfarm income affect agricultural income and investment in Pakistan? ; Chapter 59. Social and environmental impacts on agricultural development ; Chapter 60. Marketing of agricultural commodities in India ; Chapter 61. An analysis of mobile phone use in Nigerian agricultural development ; Chapter 62. Farmer suicides in India: a case of globalisation compromising on human rights ; Chapter 63. Environmental change and the emergence of infectious diseases: a regional perspective from South America ; Chapter 64. Information need and seeking behavior of farmers in Laduba community of Kwara State, Nigeria ; Chapter 65. Congo basin's shrinking watersheds: potential consequences on local communities ; Chapter 66. Nitrate, total ammonia, and total suspended sediments modeling for the mobile river watershed ; Chapter 67. Impact of climate change on potato production in India ; Chapter 68. Rift valley fever and the changing environment: a case study in East Africa ; Chapter 69. Impact of overpopulation on land use pattern -- Section 6. Managerial impact. Chapter 70. Characterization and management concerns of water resources around pallikaranai Marsh, South Chennai ; Chapter 71. Managerial reactions to ambiguous environmental changes: attention, reasoning, and erratic decisions ; Chapter 72. Assessing the readiness of farmers towards cold chain management: evidences from India -- Section 7. Critical issues and challenges. Chapter 73. The loss and damage of environmental ethics in the threshold of African culture: environmental ethics and African culture ; Chapter 74. Understanding glacial retreat in the Indian Himalaya: historical trends and field studies from a large glacier ; Chapter 75. Segmenting paddy farmer's attitude and behavior: a study towards the green fertilizer technology adoption among Malaysian paddy farmers adoption of GFT ; Chapter 76. Competitiveness of Turkey in the sectoral transformation process: a comparative analysis with the BRIC countries ; Chapter 77. Sustainability, environmental sustainability, and sustainable tourism: advanced issues and implications ; Chapter 78. Are GM crops the answer to Africa's critical food security status?: learning from the experiences of developing countries ; Chapter 79.
Agricultural growth accounting and total factor productivity in Jordan: trends, determinants, and future challenges ; Chapter 80. Human overpopulation: impact on environment.

~РУБ DDC 333.70285

Рубрики: Environmental sciences--Data processing.

   Environmental monitoring.


   Agricultural informatics.


   Agriculture--Data processing.


   Environmental sciences--Data processing.


Аннотация: "The digital age has presented an exponential growth in the amount of data available to individuals looking to draw conclusions based on given or collected information across industries. This is evident in the environmental and agricultural industries as well. In order to successfully plan preventive measures and solve current environmental problems, efficient and effective information processing of a wide range of environmental data is needed. Environmental and Agricultural Informatics: Concepts, Methodologies, Tools, and Applications is a vital reference source that examines the design, development, and implementation of complex agricultural and environmental information systems to quickly process and access environmental data in order to make informed decisions for the protection of the environment. Highlighting a range of topics such as information processing and management, environmental data, and sustainable agriculture, this multi-volume book is ideally designed for environmentalists, agriculturalists, researchers, professionals, academics, students, and scientists."--Publisher's website.

Доп.точки доступа:
Information Resources Management Association,

DDC 630.2085
S 68


    Smart agricultural services using deep learning, big data, and IoT / / Amit Kumar Gupta, Dinesh Goyal, Vijendra Singh, Harish Sharma. - Hershey, PA : : Engineering Science Reference, an imprint of IGI Global,, [2021]. - 1 online resource. - (Advances in environmental engineering and green technologies (AEEGT) book series). - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/FAB88504-AE18-4A42-98A4-540E4ED27C05. - ISBN 1799850048 (electronic book). - ISBN 9781799850045 (electronic bk.)
Description based on online resource; title from digital title page (viewed on November 25, 2020).
Параллельные издания: Print version: : Smart agricultural services using deep learning, big data, and IoT. - Hershey, PA : Engineering Science Reference, an imprint of IGI Global, [2021]. - ISBN 9781799850038
    Содержание:
Chapter 1. A neural network-based approach for pest detection and control in modern agriculture using Internet of things -- Chapter 2. Automated fruit grading system using image fusion -- Chapter 3. Fog computing as solution for IoT-based agricultural applications -- Chapter 4. Green cloud -- Chapter 5. Internet of things: a conceptual visualisation -- Chapter 6. Internet of things and the role of wireless sensor networks in IoT -- Chapter 7. IoT-based agri-safety model: mechanised agricultural fencing -- Chapter 8. Plant diseases concept in smart agriculture using deep learning -- Chapter 9. Smart agriculture and farming services using IoT -- Chapter 10. Smart agriculture services using deep learning, big data, and IoT (Internet of things) -- Chapter 11. An analysis of big data analytics -- Chapter 12. Towards intelligent agriculture using smart IoT sensors.

~РУБ DDC 630.2085

Рубрики: Agricultural informatics.

   Artificial intelligence--Agricultural applications.


   Internet of things.


   Machine learning.


   Big data.


   Agricultural informatics.


   Artificial intelligence--Agricultural applications.


   Big data.


   Internet of things.


   Machine learning.


Аннотация: "This book explores the application of deep learning, big data, IoT in agricultural services"--

Доп.точки доступа:
Gupta, Amit Kumar, (1981-) \editor.\

Smart agricultural services using deep learning, big data, and IoT / [Электронный ресурс] / Amit Kumar Gupta, Dinesh Goyal, Vijendra Singh, Harish Sharma., [2021]. - 1 online resource. с. (Введено оглавление)

4.

Smart agricultural services using deep learning, big data, and IoT / [Электронный ресурс] / Amit Kumar Gupta, Dinesh Goyal, Vijendra Singh, Harish Sharma., [2021]. - 1 online resource. с. (Введено оглавление)


DDC 630.2085
S 68


    Smart agricultural services using deep learning, big data, and IoT / / Amit Kumar Gupta, Dinesh Goyal, Vijendra Singh, Harish Sharma. - Hershey, PA : : Engineering Science Reference, an imprint of IGI Global,, [2021]. - 1 online resource. - (Advances in environmental engineering and green technologies (AEEGT) book series). - Includes bibliographical references and index. - URL: https://library.dvfu.ru/lib/document/SK_ELIB/FAB88504-AE18-4A42-98A4-540E4ED27C05. - ISBN 1799850048 (electronic book). - ISBN 9781799850045 (electronic bk.)
Description based on online resource; title from digital title page (viewed on November 25, 2020).
Параллельные издания: Print version: : Smart agricultural services using deep learning, big data, and IoT. - Hershey, PA : Engineering Science Reference, an imprint of IGI Global, [2021]. - ISBN 9781799850038
    Содержание:
Chapter 1. A neural network-based approach for pest detection and control in modern agriculture using Internet of things -- Chapter 2. Automated fruit grading system using image fusion -- Chapter 3. Fog computing as solution for IoT-based agricultural applications -- Chapter 4. Green cloud -- Chapter 5. Internet of things: a conceptual visualisation -- Chapter 6. Internet of things and the role of wireless sensor networks in IoT -- Chapter 7. IoT-based agri-safety model: mechanised agricultural fencing -- Chapter 8. Plant diseases concept in smart agriculture using deep learning -- Chapter 9. Smart agriculture and farming services using IoT -- Chapter 10. Smart agriculture services using deep learning, big data, and IoT (Internet of things) -- Chapter 11. An analysis of big data analytics -- Chapter 12. Towards intelligent agriculture using smart IoT sensors.

~РУБ DDC 630.2085

Рубрики: Agricultural informatics.

   Artificial intelligence--Agricultural applications.


   Internet of things.


   Machine learning.


   Big data.


   Agricultural informatics.


   Artificial intelligence--Agricultural applications.


   Big data.


   Internet of things.


   Machine learning.


Аннотация: "This book explores the application of deep learning, big data, IoT in agricultural services"--

Доп.точки доступа:
Gupta, Amit Kumar, (1981-) \editor.\

DDC 338.16
A 26


    Agriculture and environment perspectives in intelligent systems / / edited by Andrés Muñoz and Jaehwa Park. - Amsterdam : : IOS Press,, 2019. - 1 online resource (120 pages). - (Ambient intelligence and smart environments ; ; 24). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/4FA19FA1-3185-4072-8BA4-71FF0704EB99. - ISBN 9781614999690 (electronic bk.). - ISBN 1614999694 (electronic bk.)
Online resource; title from PDF title page (EBSCO, viewed August 5, 2019)
Параллельные издания:
    Содержание:
Intro; Title Page; Preface; Contents; Controlled Environment Agriculture: Using Intelligent Systems on the Next Level; Intelligent Environmental Biomonitoring Systems: A Promising Arena for Future; A Novel Design and Implementation of Data Acquisition and Preprocessing System for Precision Agriculture; Prediction of Uptake of Carbamazepine and Diclofenac in Reclaimed Water-Irrigated Lettuces by Machine Learning Techniques; Minimum Temperature Prediction Models in Plots to Forecast Frost in Crops; Subject Index; Author Index

~РУБ DDC 338.16

Рубрики: Agricultural innovations.

   Agriculture--Data processing.


   Agricultural informatics.


   Agriculture--Innovations.


   Agriculture--Informatique.


   Agricultural innovations.


   Agriculture--Data processing.



Доп.точки доступа:
Muñoz, Andrés, \editor.\
Park, Jaehwa, \editor.\

Agriculture and environment perspectives in intelligent systems / [Электронный ресурс] / edited by Andrés Muñoz and Jaehwa Park., 2019. - 1 online resource (120 pages) с. (Введено оглавление)

5.

Agriculture and environment perspectives in intelligent systems / [Электронный ресурс] / edited by Andrés Muñoz and Jaehwa Park., 2019. - 1 online resource (120 pages) с. (Введено оглавление)


DDC 338.16
A 26


    Agriculture and environment perspectives in intelligent systems / / edited by Andrés Muñoz and Jaehwa Park. - Amsterdam : : IOS Press,, 2019. - 1 online resource (120 pages). - (Ambient intelligence and smart environments ; ; 24). - URL: https://library.dvfu.ru/lib/document/SK_ELIB/4FA19FA1-3185-4072-8BA4-71FF0704EB99. - ISBN 9781614999690 (electronic bk.). - ISBN 1614999694 (electronic bk.)
Online resource; title from PDF title page (EBSCO, viewed August 5, 2019)
Параллельные издания:
    Содержание:
Intro; Title Page; Preface; Contents; Controlled Environment Agriculture: Using Intelligent Systems on the Next Level; Intelligent Environmental Biomonitoring Systems: A Promising Arena for Future; A Novel Design and Implementation of Data Acquisition and Preprocessing System for Precision Agriculture; Prediction of Uptake of Carbamazepine and Diclofenac in Reclaimed Water-Irrigated Lettuces by Machine Learning Techniques; Minimum Temperature Prediction Models in Plots to Forecast Frost in Crops; Subject Index; Author Index

~РУБ DDC 338.16

Рубрики: Agricultural innovations.

   Agriculture--Data processing.


   Agricultural informatics.


   Agriculture--Innovations.


   Agriculture--Informatique.


   Agricultural innovations.


   Agriculture--Data processing.



Доп.точки доступа:
Muñoz, Andrés, \editor.\
Park, Jaehwa, \editor.\

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