Sala Design Group is an international design firm with over 40 years of combined experience in luxury resort, hotel, golf, residential, and landscape design. The firm provides experienced design personnel to deliver high quality design packages for prestigious projects globally. Sala Design Group has offices in Singapore, Hong Kong, China, and the UAE, and works on projects throughout Asia and other regions. Some of its past master planning and landscape design projects include Vanke East Coast in Shenzhen, China.
The document summarizes two resort case studies - the Amandari resort in Bali and the Nazimgarh garden resort in Sylhet, Bangladesh. The Amandari resort is located in a village in Bali and designed to reflect traditional Balinese culture, using local materials like thatch, bamboo, and wood. It consists of detached villas and suites with private pools and gardens. The Nazimgarh resort is located in hills near Sylhet and divided into accommodation, restaurant, and parking areas. It contains different room types and facilities like a kids zone, gym, and restaurants. Both resorts utilize landscaping and greenery to cope with warm, humid climates and incorporate local architectural styles and materials.
This document discusses strategies for implementing e-Agriculture in Thailand through digital transformation of the agricultural ecosystem. It outlines several initiatives including developing an e-Agriculture strategy platform, transitioning farmers and SMEs to smart farming and startups, building capacity through training programs, providing agricultural services and data-driven decision making tools, ensuring food safety and traceability, promoting social enterprises and clustering, and fostering collaboration between government, private sector and communities. The goal is to address issues like labor shortages, climate change impacts, and generate new opportunities through technology and innovation.
1. A new approach is needed for agricultural business utilizing new technologies, knowledge, and information services.
2. This approach involves smart farming utilizing ICT, agriculturists, and human sensing through production clusters, skill development, and ubiquitous sensor networks.
3. The focus is on appropriate technologies, new designs for greenhouses and orchards, precision farming, and applications for different crops to improve yields and quality under climate change.
This document outlines plans for creating an agricultural social business and learning institute in Bangladesh called RSPG Learning Institute. The key points are:
1. RSPG aims to conserve plant genetic resources, build links between organizations, and create a plant genetics database.
2. RSPG will focus on protecting, identifying, evaluating and utilizing natural and human resources through approaches like facilitation, infrastructure as a service, and knowledge as a service.
3. The learning institute will facilitate the creation of social businesses, empower communities, and improve livelihoods through activities like community research, innovative value chains, and management of resources like rice and forests.
4. Stakeholders will include communities, farmers,
This document discusses strategies for developing smart agriculture in Thailand using new technologies. It outlines several key challenges facing Thai agriculture, including rising population and food demands, climate change impacts, and labor shortages. It then proposes using information and communication technologies (ICT) like sensors, drones, and mobile apps to address issues in crop production, quality assessment, risk reduction, knowledge empowerment, and more. Specific solutions outlined include precision farming systems, quality traceability tools, early warning systems, and advisory services. It emphasizes the need for collaboration between different groups and an approach called "Village that Learn" to facilitate local knowledge sharing and lifelong learning. The overall aim is to create smarter farmers and officers through appropriate technology integration.
The document discusses suggestions for next steps to accelerate the effective deployment of e-agriculture solutions to meet stakeholder expectations. It suggests several potential solutions, including:
1) Developing a data visualization model called What2Grow to integrate land use data for agriculture zoning and production planning.
2) Creating a farm and farmer registration system called TAMIS to track locations and manage data.
3) Developing a mobile application called Faarm-ru to integrate knowledge and technologies for agriculture extension and advisory services.
This document discusses e-agriculture solutions and technologies that can help address challenges in agriculture, such as an aging society, lack of farm laborers, climate variability, and the need for higher production quality and lower costs. It presents technological approaches for smart officers, smart farmers, and smart farms that utilize ICT, sensors, and embedded technologies. These include a new design for smarter tropical greenhouses, new farm and orchard management systems, approaches for rice and field crop production, and technologies for production quality reduction and knowledge engineering. It also discusses policy-level planning and strategies as well as example technologies and solutions like a farm and farmer registration system, a water optimization model, an early warning system using image processing, and agricultural information services
3. The World Competitiveness Ranking
Source: World Economic Forum 2014
31from 150
The Global Competitiveness index
No. 3 in AEC
ranking
Singapore2
Malaysia 20
Thailand 31
Indonesia 34
Philippines52
Vietnam 68
Laos PDR 93
Cambodia95
Myanmar 134
4. Some AEC related facts?
Asian Economic Community, by December 2015
8. Who are identified as the farmers?
Technological approach depends on target groups
Smart OfficersSmart Farmers
Smart Farm
Appropriated
Technologies
For 3 Smart
farmers
Volunteer
farmers
New farmers
generation
Farm Technical
students
Investors
9. Better Quality of Life
คุณภาพชีวิตที่ดีขึ้นของเกษตรกรและผู้บริโภค Vision
Mission
Values
ICT in Value Chain Management
การจัดการการผลิตและคุณภาพในห่วงโซ่การผลิต
Information as a Services
การบริการข้อมูลเพื่อการจัดการทรัพยากร
การผลิต
Knowledge as a Services-Smart Farmers
การบริการความรู้เพื่อการเตรียมพร้อมกับการ
เปลี่ยนแปลง
Location Based Services-Smart Farm
การบริการการจัดการเฉพาะพื้นที่
Risk reduction under Climate Variability
การจัดการลดความเสี่ยง
Knowledge Engineering
การจัดการความรู ้และการเข ้าถึง
Smart Farmers & Smart Farming
Services Innovation in Agriculture
นวัตกรรมบริการทางการเกษตร
NECTEC Smart Farm Flagship Initiative
13. Reduce cost of
production and raising quality of life
by appropriated
information & communication
technology for farm management
Farm data management,
Information Technology for
GAP Assessment,
Ubiquitous Sensors Networks
การบูรณาการ
เทคโนโลยีเพื่อการ
ผลิตทาง
การเกษตร
Government: Department of Seri-culture, Rice Department, Department of Agriculture
Agriculture Research Development Agency, Department of Fisheries
Universities: Mae Jo University, Kasetsart University, , Prince of Songkla University
Rajmongkol Technology University, Asian Institute of Technology,
Private Sectors: Koerner Agro, Orchid Exporter Association, Fruit & Vegetable Export Association,
Farmers Association: Rice Seed Production Group(Saraburi, Supanburi, Pitsanulok),
Growers Association, GAP/Organic Rice Grower Association
International Collaboration: FAO, NARO, JAXA, Consortium(APAN, AFITA, SRII)
Field server
Sensors network
Mobile application
Voice recognition
Ontology
Knowledge Engineering
Big Data management
UAV
Photonic
Image Processing,
DSS
การนาเทคโนโลยีสารสนเทศ
และอิเล็กทรอนิกส์
เข ้าไปสู่ระบบจัดการการเกษตร
Smart Farm-Precision
farming
การทาการเกษตรที่อาศัยข้อมูล
และเทคโนโลยี
14. Brand & Trust for Thai Agricultural
Products, Information Integration
between G2G, and G2C, Boosting
GAP Certification Farms
Mobile GAP Assessment
System,
IT Package for Traceability
System,
การบูรณาการ
เทคโนโลยีเพื่อการ
จัดการมาตรฐานการ
ผลิตและมาตรฐาน
สินค้า
Mobile application,
Sensors for quality control,
E-Nose,
RFID,
QR code,
Moisture measurement sensors,
Image processing,
Photonic,
การนาเทคโนโลยีสารสนเทศ
และอิเล็กทรอนิกส์
เข ้าไปสู่ระบบจัดการการเกษตร
Government: Department of Seri-culture, Rice Department, Department of Agriculture
Agriculture Research Development Agency, Department of Fisheries
Universities: Mae Jo University, Kasetsart University, , Prince of Songkla University
Rajmongkol Technology University, Asian Institute of Technology,
Private Sectors: Koerner Agro, Orchid Exporter Association, Fruit & Vegetable Export Association,
Farmers Association: Rice Seed Production Group(Saraburi, Supanburi, Pitsanulok),
Longan Growers Association, GAP/Organic Rice Grower Association
International Collaboration: FAO, NARO, JAXA, Consortium(APAN, AFITA, SRII)
Food Safety
ความปลอดภัยในการบริโภค
สินค้ามีคุณภาพ มาตรฐาน
15. Reduce production lost from
natural disaster and pests
Pest tracking & warning system,
Agriculture weather forecasting,
Mitigation procedure for
seasoning
Shift,
,
การบูรณาการ
เทคโนโลยีเพื่อจัดการ
ลดความเสี่ยงของภาค
เกษตรจากภัย
ธรรมชาติและการ
ระบาดของโรคแมลง
Telemetering system,
Simulation model,
DSS,
Sensors network,
GIS/RS,
Water management system
UAV
การนาเทคโนโลยีสารสนเทศ
และอิเล็กทรอนิกส์
เข ้าไปสู่ระบบจัดการการเกษตร
Government: Department of Seri-culture, Rice Department, Department of Agriculture
Agriculture Research Development Agency, Department of Fisheries
Universities: Mae Jo University, Kasetsart University, , Prince of Songkla University
Rajmongkol Technology University, Asian Institute of Technology,
Private Sectors: Koerner Agro, Orchid Exporter Association, Fruit & Vegetable Export Association,
Farmers Association: Rice Seed Production Group(Saraburi, Supanburi, Pitsanulok),
Longan Growers Association, GAP/Organic Rice Grower Association
International Collaboration: FAO, NARO, JAXA, Consortium(APAN, AFITA, SRII)
Food Security
เทคโนโลยีที่ช่วยเตือนภัย ลด
ความสูญเสีย และสร้างความ
มั่นคงทางอาหาร
16. New generation of farmers,
Increasing number of knowledge
Workers, and facilitators
Agriculture advisory,
Knowledge services,
Village that Learn,
การจัดการข้อมูลและ
ความรู้เพื่อพัฒนา
เกษตรกรและ
เจ้าหน้าที่
Telemetering system,
Simulation model,
DSS,
Sensors network,
GIS/RS,
Water management system,
Knowledge engineering,
Ontology,
Speech recognition,
เทคโนโลยีด้าน
การจัดการความรู้
Government: Department of Seri-culture, Rice Department, Department of Agriculture
Agriculture Research Development Agency, Department of Fisheries
Universities: Mae Jo University, Kasetsart University, , Prince of Songkla University
Rajmongkol Technology University, Asian Institute of Technology,
Private Sectors: Koerner Agro, Orchid Exporter Association, Fruit & Vegetable Export Association,
Farmers Association: Rice Seed Production Group(Saraburi, Supanburi, Pitsanulok),
Longan Growers Association, GAP/Organic Rice Grower Association
International Collaboration: FAO, NARO, JAXA, Consortium(APAN, AFITA, SRII)
Smart Farmers/Officers
การพัฒนาเกษตรกรในการทา
การเกษตรด้วยข้อมูล
88. Conceptual Services System
Designing process 6 attributes
Interaction
Participation
Accessibility
of Services
Core services
Enabling
services
Enhancing
services
Value creation Value network
Value density
interchan
ge
Add value Realize
value
Services
Concept
89. Step of works
Designing process for agricultural services
co-creation
Value in context
Absorb variety
Services offering
Services design
Business canvas
Services blueprint
Physical
evident
Guiding
principle
Package
Of Offering
Innovation
Technolog
y
InputPlatform/
Knowledge
As a services
91. What is an emerging technologies for
information services?
• Sensors network
• Mobile application
• Image processing and photonics
• Knowledge as a services
• Remote sensing, GIS and spatial analysis
• UAV
• Modeling
92. Co-creation
How to share knowledge to services experiences and skill?
Academic
Communities Private
Fertilizer
company
Fertilizer sprayers
Rice Department
NECTEC
AIT, U. of Tokyo,
Chubu U.
Network of farmers
Farmers
member
94. Tailor made fertilizer services
Understanding soil condition, right fertilizer formula, right time
Safe cost, safe time,
better quality of rice and life
97. New design for
smarter tropical greenhouse
New farm and orchard
management
New approaches for
Rice and field crops
production
More precisely data collecting and management