Japan’s Speedy Egg Technology

Japan uses high tech technology to check and package eggs. The system used has a process of cleaning, checking for cracks and blood spots, and then packaging the eggs. As stated in the video, the whole process takes about ten minutes to complete. The cleaning process involves several steps to make sure the egg is completely safe, and proceeding that process red and blue lights check for any other spots that were missed. The next step is checking for cracks. Eggs are checked for cracks by the eggs being tapped 16 times by mini hammers. The final stage is the packaging process. This process involves the eggs being put into package and being labeled. The whole process takes up to ten minutes, and 33 packages of eggs can be produced in 1 second (Speedy and Safe – Japan’s Egg Technology). That is a lot of packages for one second! Technology has allowed faster and more efficient packaging for factories.

Every country has some type of system they use to produce products, farm land, and much more. Not all use technology, but technology is being implemented at a fast rate in countries. Implementing technology will only benefit companies because of how fast products can be produced, and the quantity that can be produce in a single day. Japan has taken advantage of technology, and the egg factory uses the fastest technology available to package all the eggs. Japan is being smart and using technology to mass produce at a fast rate. Other countries and factories need to observe this and realize technology comes with a tremendous amount of benefits.

Speedy and Safe – Japan’s Egg Technology. Ministry of Foreign Affairs of Japan, 2013. Youtube Video.

The AgBot

A system that can completely control data and record, plus monitor farms and agriculture areas. This system for helping farmers is called AgBot. What are AgBots? An AgBot gathers and stores information to its computer system that can then be accessed online by using a smartphone or computer. AgBots are solar powered, compact, and robust, which means that it can be deployed for up to weeks at a time (agbot.org). This robot is a new system to help farmers on their land, and to keep information organized an accessible.

AgBots can perform a lot of duties to benefit farmers. These dues are monitoring irrigation and water levels, remotely turning pumps or appliances on and off, sending sms alerts during specific events, monitoring and recording rainfall, humidity, soil, air temperature, soil content, and electricity use, and recording upload or sms photos in real time (agbot.org). AgBots can perform numerous tasks, but this is only a small list of the tasks an AgBot can do. AgBots can operate independently for long periods of time because they are solar powered with rechargeable batteries. This device is all of the electronic luxuries we have in the world combined into one robot that can do all of the work on its own. As of right now, there are five AgBots available through order from Australia.

The five AgBots are WaterBot, SuperBot, SpyBot, ActionBot, and FieldBot. Each bot completes different tasks for its specific duties that are wanted. WaterBot, ActionBot, and SpyBot can be purchased for $199. While the FieldBot is $299, and the SuperBot is $599. These robots are a new technology movement to improve farmer’s efficiency on the farm. It also improves that amount of accurate data farmers collect on a regular basis. Technology improves to help peoples lives become easier, and helps the ones the need the most help. Farmers need the most help because of the long days and nights they spend working. These systems can help a farmer in any way needed, but the biggest benefit is all of the stored information available to access on a computer or smartphone. Technology is the new helping hand for famers, and the implementation of it could lead to great success on the farm.

“AgBot.” - Agricultural Robotics. N.p., n.d. Web. 15 Nov. 2014. <http://agbot.org/&gt;.

Vertical Farming: Feeding the World in a New Way

Vertical farming is one of the new technologically advanced methods to produce more goods and produce for the population. It is estimated by the year of 2050, 80% of the world’s population will mostly reside in in urban areas, and the human population will also increase by three billion (verticalfarm.com). The most logical solution to provide food for all these people in urban areas is vertical farming. Vertical farms can be set up in urban areas and the buildings are staked up with different produce and livestock on each floor.

Technology will need to be fully used to feed the world by 2050. Vertical farms are the new way to feed the world, and vertical farms are in the production process. One vertical farm being built is located in Singapore. The farm is a 26 story towers high and will contain organic local vegetation. Solar panels will be used to generate 40% of the energy required to run the facility. Another form of energy will be human waste, which is converted into energy by on-site-bio-gas facility (Inspiration Green). This is only one vertical farm, and it is uses very little resources and energy to produce all the goods that are required for consumers.



Vertical farms are the future of agriculture, but only for urban areas. As of right now, the farm ground that we have now will mostly be preserved, unless the world continues to increase in population and the farm ground gets taken over. Vertical farms will help urban areas obtain the necessities they need without farmers transporting goods into the city for the consumers. The farm is also extremely green, and will not harm the environment. There are very many benefits in vertical farming, but who would have ever thought a farm could be built in a tower in the middle of a city?

Despommier, Dickson. “The Vertical Farm.” The Vertical Farm RSS. N.p., n.d. Web. 13 Nov. 2014. <http://www.verticalfarm.com/&gt;.

“Vertical Farms.” Vertical Farms. N.p., n.d. Web. 14 Nov. 2014. <http://www.inspirationgreen.com/vertical-farms.html&gt;.

Keep It Cool

Keeping products fresh is very important after the harvesting process due to the products being sold for a profit. A cooling facility is what farmers use to transport their goods to the market. What is the importance of a cooling system? Well, as I stated before, a cooling system keeps products fresh. Who wants bad products? I know I don’t, and I am not the only consumer that thinks that way. No one wants to go to the market and purchase bad tomatoes. Purchasing bad produce completely ruins a whole meal, and makes the person have to run to the store again to purchase better produce. It is a win-win situation for consumers and farmers because farmers can keep their produce fresh for consumers, and consumers can buy the fresh produce and enjoy it. Consumers will keep buying the farmers produce if it is fresh and delicious at the market, which will allow farmers to generate a steady income.

Different forms of cooling can be used for keeping produce fresh. These forms are water, ice, and forced air. Each method can be used, but the method that is chosen depends on the product being transported (Schneider, Goodrich-Schneider, Archer). The major factor when deciding what method to use is determining what method will have the lowest risk of food contamination. The method best suited for this responsibility is the air-cooling system. With air-cooling systems, transporters and farmers do not have to worry about the water or ice containing microbial contamination (Schneider, Goodrich-Schneider, Archer). That is why this system is the most frequently used in transportation vehicles.

The main goal of cooling systems is to fight off heat stress that can turn produce bad. “During transport, produce is rarely held under optimum environmental conditions; approximately 40% of the vegetables never make it to the supermarket shelves due to damage during transit (Benkeblia). To prevent this, transporters need to be aware of the temperature in the trailers because produce temperature is the most important component in good produce. Cooling technology allows produce to be shipped across countries, and farmers would not have this ability in earlier years.. Their income will increase, and more consumers can experience their products. Technology allows farmers to do more things than every before.

Schneider, Keith R., Renee Goodrich-Schneider, and Douglas L. Archer. “Food Safety on the Farm: Good Agricultural Practices and Good Handling Practices—Water1.” EDIS New Publications RSS. N.p., 2013. Web. 14 Nov. 2014. <http://edis.ifas.ufl.edu/fs136&gt;.

Benkeblia, Noureddine. Transportation of Fresh Horticulture Produce 2 (n.d.): 1-24. 2009. Web. 14 Nov. 2014. <http://ucanr.edu/datastoreFiles/234-1291.pdf&gt;.

Helping Farmers Get More Sleep with Technology

New technology is generated all the time, but it is slowly increasing in agriculture by the years. A new system that helps farmers be more productive in harvesting is on-the-go cart filling systems. This system uses navigation to guide carts to the location of the combine that is harvesting. Farmers work from sunrise to sunset and most of the time even later into the night in planting and harvesting season. This is one new technology that can help farmers get work done while be able to have more sleep at night.

Efficiency is key when technology is being produced and this navigation cart system can do just that. John Fulton, a precision agriculture specialist at Auburn University states, “I think a 10 to 15% improvement in harvest efficiency through improved off-loading is achievable. It may be even higher for some folks. Improved efficiency on that scale could have a tremendous impact financially.” Having new technology implemented into agriculture can be expensive in the beginning, but the future income that can be made in less time makes the implementation worth it.

The navigation system uses GPS/GNS navigation to locate the combine and cart with each other, and the systems also controls the speed of the cart that will match to the speed of the combine. Sonic and visual sensors are used as well for monitoring (David Hest). For a farmer, driving and watching the loading process at the same time can be challenging, and that is why video systems can help out. Farmers still have to make decisions and control the wheel, but with extra systems, it allows farmers perform other tasks while in the harvesting process.

Income and efficiency are the two main improvements farmers will see with an increase use of technology. Implementing the new systems will be expensive though, but will only benefit in the long run. To keep up with the agriculture world, farmers will need technology for help. New systems will continue to appear in the agriculture world, and farmers need to keep an open mind. Trying new technology won’t hurt even though it can be scary.

Hest, David. “20 Technologies Changing Agriculture.” Photo Gallery:. N.p., 9 Mar. 2011. Web. 13 Nov. 2014. <http://farmindustrynews.com/precision-farming/20-technologies-changing-agriculture#slide-18-field_images-45641&gt;.

New Technology Can Save the Planet From Harmful Emissions

Farm equipment is still in the process of being moved to smokeless engines. Environmental regulatory agencies have a main focus on four types of engine emissions. These emissions are carbon monoxide, hydrocarbons, nitrogen oxides, and particulate matter (John Deere). The reason engines have to be redesigned is because of the government Interim, and the government believes these four factors are not good for the environment. The main targets the government is focusing on are all the trucks and equipment that use any of the four engine emissions. Non-road emission reductions have been put in place and some of the reductions are still not accomplished. The regulations are being made, but companies are also developing better diesel engines that do not produce harmful emissions. Companies such as John Deere.

John Deere has cut down NOx through cooled exhaust gas recirculation. They are the first company to produce the the EGR cooling system. The engine works by removing oxygen from the air. Valves open up, then measured amounts of cooled exhaust gasses are sent back int the machine and are combined with fresh oxygen (John Deere). This company may be the first to produce this type of engine, but other companies are following John Deere’s footsteps.

The government is happy about the companies developing better engines, but they still are implementing restrictions with a reduction process. The stages of the reduction process are as followed: “Tier 3/Stage III A emissions regulations required a 40 percent reduction in Nox compared to Tier 2/Stage II. Interim Tier 4/Stage III B regulations require a 90 percent reduction in PM along with a 50 percent drop in NOx compared to Tier 3/Stage III A. Interim Tier 4/Stage III B and Final Tier 4/Stage IV must pass additional emissions tests including the steady-state 8-mode test (ISO 8178) and the rigorous non-road transient cycle (NRTC) test. Final Tier 4/Stage IV regulations, which will be fully implemented by 2015, will maintain levels of PM and require an additional 80% reduction in Nox compared to Interim Tier 4/Stage III B” (John Deere). To understand these reductions more, the image below puts the text into a visual form.



The regulations have been a hassle for the operators of diesel engine machines or trucks, but the regulations are good for the environment. To keep our world here, we need to cut back on many things that harm the environment, and diesel engines emitting harmful substances is one of them. The emitting of harmful substances is also bad for the human population, and animal population. In the air, we cannot see all of the particles being admitted, but our body feels the impact. New technology companies are redesigning diesel engines, and these engines will only benefit the whole planet. The regulations are a great thing being implemented so we can have a healthy environment with healthy plants, animals, and humans in it.

“Understanding Emission Regulations.” Emissions Regulations from John Deere. N.p., n.d. Web. 13 Nov. 2014. <https://www.deere.com/en_US/services_and_support/emissions_information/understanding_emission_regulations/regulations.page&gt;.

“JD Diesel Engine Technology.” JD Diesel Engine Technology. N.p., n.d. Web. 13 Nov. 2014. <http://www.deere.com/en_US/docs/html/jdps_brochure/default.html#building-blocks&gt;.

Farming With Precision

Two technologies have impacted agriculture in a big way, and these two technologies are geographic information systems and global positioning systems. Other technologies are used along side of the GIS and GPS, which all the technology added together makes up precision farming. To get an idea of precision farming, I will tell you a story so you can picture the process of precision farming.

Imagine yourself sitting in a combine, and while riding along on your farmland you push a button in the cab that turns on your GPS. This GPS system then pinpoints your precise location within a meter. Then, you proceed to touch another button, and this button displays GIS maps. The maps show many things, such as where the soil eroded in the winter. After that, you upload sensing data that show you where beginning crops are thriving and where they are not. Then, they are uploaded, you press SEND, and the data is uploaded onto an onboard machine that automatically runs the process of regulating fertilizer and pesticides. Once this whole process is completed, you can enjoy the ride and the beauty of nature.



That whole process is the new generation that involves precision farming, and there are many benefits.“Several benefits are achieved from an automated method of capturing, storing and analyzing physical field records. Detailed analyses of the farm production management activities and results can be carried out. Farmers can look at the performance of new varieties by site specific area, measure the effect of different seeding dates or depths and show to their banker the actual yields obtained and the associated risk levels. It is imperative that trends and evaluations are also measured over longer time spans. Cropping strategies to control salinity may take several years to evaluate while herbicide control of an annual weed should only take one season” (Agriculture and Rural Development).These benefits will only grow as technology increases. Many farmers use technology, and the use of technology is only increasing.

The precision farming development is still in process, and is always developing new technology. Precession farming allows farmers to relax more and have help when planting and harvesting seasons are hectic. Who helps out with this technology though? The U.S. Department of Agriculture, NASA, and NOAA are three of the agencies contributing to the precision farming movement (David Herring). With the implementation of technology, the main goal is to improve the profits and harvest yields for farmers.

Herring, David. “Precision Farming : Feature Articles.” Precision Farming : Feature Articles. N.p., 29 Jan. 2001. Web. 12 Nov. 2014. <http://earthobservatory.nasa.gov/Features/PrecisionFarming/&gt;.

“What Is Precision Farming?” What Is Precision Farming? N.p., n.d. Web. 12 Nov. 2014. <http://www1.agric.gov.ab.ca/$department/deptdocs.nsf/all/sag1951&gt;.