As healthcare advances, technology has become an increasingly important part of our lives. We use technology every day, from the mobile phone to the internet to the prescription pill bottle. Today’s technological advances have also opened the door to the pharmaceutical industry. According to the American Cancer Society, “In the last five years, the pharmaceutical industry has gone from largely unregulated to highly regulated.” The result is that people can find many pharmaceutical products at the local drug store.
Technology has also become a part of everyday life. A new kind of technology has emerged: Medical Technology. Technology is playing a key role in helping people living with chronic illnesses to live a better quality of life. The following article will focus on one technology in particular: the monarch lifeflight lifeboat.
The medical technology used by the monarch limelight is a standardized mark chronon. This unique device is used on the inside of the limelight to communicate with the hospital. The standardized mark chronon helps hospital personnel easily identify and connect with the limelight patient. This connection allows the hospital staff to quickly and accurately determine the current status of the patient and establish treatment plans. In addition, the standardized mark chronon provides critical data for other departments to quickly and accurately perform their functions.
One of the most impressive technologies developed for this suit technology is the application of VSI or Very Small Signal technology. VSI technology is used to send electronic signals through the air that can be read by another electronic device. For example, the monarch suit uses a VSI sensor to send and receive data from a chest computer. Although the technology is similar to the standard VSI signal, the signal used in this suit is unidirectional, meaning that it can only travel in only one direction.
The final piece of technology used in the Monarch’s lifelike design is a microchip. The microchip is programmed to perform specific tasks. These tasks include the analysis of the oxygen intake and carbon dioxide output of each pilot during a flight. It also receives information about the temperature of the cockpit and the humidity of the surrounding environment. The microchip is then digitally transmitted from the aircraft to the hospital’s primary computer system.
In order to ensure that the communication technology used is secure, the manufacturer has specifically designed the Monarch with an aluminum sleeve. This aluminum sleeve ensures that the communication transceivers are free of interference. Additionally, the sleeve reduces the amount of heat that is absorbed by the microchip. This reduces the need for the transceiver to run constantly, reducing power usage. The use of a sleeve also ensures that there is no possibility of data being corrupted while in flight. It also protects the microchip from damage during storage during flight.
One additional piece of communicative tech used on the Monarch is called PCM (Panther Medium Area Network). The PCM is used to communicate with the base station and the various onboard devices. The PCM provides the means to identify each pilot’s voice and to control the distribution of the audio feed. Because this PCM system requires direct connection to the airplane’s engine, it is used only during flight and is therefore very secure.
All of the technologies used in the Monarch are designed to increase the security of the communications and data that are transmitted. Each technology has a unique purpose, ensuring that the Monarch system provides the most secure communication possible. The increased security is also used to prevent passengers from having access to the controls of the airplane. In addition, the ability to secure the technology and monitor it during flight reduces the risk of it being exploited in a criminal context.