}
Abstract
Innovation was more important in modern agriculture before. The industry as a whole faces major challenges, ranging from rising supply costs, labor shortages, and changing consumer preferences for transparency and sustainability. There is a growing recognition from agricultural companies that solutions are needed to this challenge. In the last 10 years, agricultural technology has seen enormous investment growth, with $6.7 billion invested in the last 5 years and $1.9 billion in the last year alone.
Indoor Vertical Farm
Indoor vertical farming can increase crop yields, overcome land constraints, and the impact of agriculture on the environment by reducing distances in the supply chain. Indoor vertical farming can be defined as the practice of growing crops stacked on top of one another in a closed and controlled environment. By using vertically planted shelves, it significantly reduces the amount of space required to grow crops compared to traditional farming methods. This type of growth is very tight with urban and urban agriculture because of its ability to thrive in a limited space. Vertical farming in some settings does not require soil to grow. Most are hydroponic, where vegetables are grown in a bowl of nutrient dense air, or aeroponic, where plant roots are systematically sprayed with water and nutrients. To entertain natural sunlight, artificial growth lamps are used.
Sustainable growth and maximizing crop yields at reduced labor costs, from indoor vertical farming is evident. Vertical farming can control variables such as light, humidity and air to measure precisely throughout the year, increasing food production with reliable harvests. Reducing air and energy use, optimizing energy conservation — vertical farming uses up to 70% less air than traditional farming. The workforce is also greatly reduced by using robots to complicate harvesting, planting, logistics, solving the challenges associated with the current labor shortage in the agricultural industry.
Agricultural Automation
Modern Farm
Automation makes agriculture, often “smart farming”, a technology that makes agriculture more efficient and automates the crop or livestock production cycle. More and more companies are working on robotics innovations to develop drones, autonomous tractors, robotic harvesters, automated watering and seeding robots. Although the technology is relatively new, the industry has seen a growing number of traditional agricultural companies incorporating automation into their processes.
New advances in technology from robotics and drones to computer vision software have transformed modern agriculture. The main goal of agricultural automation technology is to cover easier and more mundane tasks. Some of the key technologies used most frequently by agriculture include: automation, autonomous tractors, seeding and weeding, and drones. Agricultural automation technologies address key issues such as an increasing global population, shortage of agricultural labor, and changing consumer preferences. The benefits of automating traditional farming processes are critical to addressing the concerns of consumer preferences, labor shortages, and the environmental footprint of agriculture.
Artificial intelligence
Modern Farm
The rise of digital agriculture and related technologies has opened up a myriad of new data opportunities. Remote sensors, satellites and UAVs can collect information 24 hours per day across the entire field. It can meet plant health, soil conditions, temperature, humidity, etc. The amount of data these sensors generate is enormous, and the significance of these numbers can be hidden in the avalanche of data (modern agriculture).
The idea is to enable farmers to have a better understanding of the situation on the ground through modern technology (such as remote sensing) that can tell them more about their situation that they can see with the naked eye. And it’s not only more accurate, it’s also quicker to watch it walk or drive the fields.
Remote sensors allow algorithms to interpret the field environment as statistical data that can be applied and useful for farmers to make decisions. The algorithm processes data, adapts and learns based on the data received. The more input and statistical information collected, the better the algorithm will predict various outcomes. And ERP is so that farmers can use this artificial intelligence to achieve better goals through better decision making in the field.
WHAT IS GREEN CLIMATE WORLD
Green Climate world is a project aiming to improve the life on our planet.
The core of the project is the WGC Token. The WGC token is a blockchain based cryptocurrency and also a ledger. All logs will be secure on the blockchain with no possibility for any kind of tempering or erasing by anyone.
OUR GOAL
Our main goal is recording atmospheric data to our blockchain and planting trees.
In order to reach our goal we will take a small percent of the value of the the WGC token and put it toward planting trees.
Mission
Our main goal is to record atmospheric data to our blockchain and plant trees. To achieve our goal, we will take a fraction of the value of the WGC token and use it to plant trees.
TREE PLANTING
Through many studies, we at Green Climate World have found that the best results are obtained using tree planting drones. Drones can plant up to 100 times faster than traditional tree planting operations. This is why we at Green Climate World will provide tree planting drones and ensure that every planting expedition is effective and efficient.
This approach requires innovation, namely drone hardware to shoot seeds effectively, mapping software to optimize cropping patterns and plant science to maximize survival rates and increase biodiversity. Such innovation requires investment. Therefore, although trees provide many benefits to society and the environment, BioCarbon does this initiative not only to do good. They understand that restoration of degraded land is a growing business. This time.
How does it work?
Once the token is created and established the whole process will be quite simple.The idea is that part of the value of the token will be put toward planting trees.There are two ways through which this can be accomplished. The first one we locate, facilitate and fund the whole process or we start a cooperation with a non-profit organization whose main goal is planting trees. By cooperating with an already existing non-profit organization the whole process will be much simpler and we believe there will be a bigger impact. Once defined the planting areas the users will be able to choose where trees willbe planted as a result of their purchase.
Tokonomics
Token Name — Green Climate World
Token Ticker — WGC
Total Supply — 1,000,000,000
Network — Binance Smart Chain
In order to reach the goal, a small percent of the value of the WGC token and put toward planting trees.
In order to reach the goal, a small percent of the value of the WGC token and put toward planting trees.
Utility of WGC Token
Function as a currency,
A share in the company
Points in a loyalty program
Proof of ownership
Used for Rewards
Roadmap
Official Links:
Website: https://greenclimate.io/
Twitter : https://twitter.com/GreenClimateWrl
Telegram : https://t.me/greenclimate
Instagram : https://www.instagram.com/greenclimateworld
Reddit : https://www.reddit.com/r/GreenClimateWorld/
Linkedin : https://www.linkedin.com/company/green-climate-world
Author
User name : putumayang
Bitcointalk : https://bitcointalk.org/index.php?action=profile;u=2603300
WGC Wallet Address : 0x8D7387b100Fe5Eb51d2f75fEF9D1385e4A7d486F