A Collection of Fesentience Research Papers
Below are 17 extensive research papers, prepared by our team members, that address the multiple causes, effects, symptoms, and outlooks on neonatal abstinence syndrome and failure to thrive syndrome.
Once our group had decided on a project we went through an extensive research process, which has ended up in a research paper consisting of 30+ pages. We explored topics such as synthetic skin, sensors and feedback modules, premature infant mortality, failure to thrive, biomimicry, addiction and infant mortality, as well as bronchopulmonary dysplasia.
The skin is one of the most intricate organs of the human body. It not only is one of the largest organs contained in the human body encompassing up to 22 square feet, it contains many sweat glands, blood vessels, and nerve endings. The skin on the palms of the hand and the soles of the feet is the thickest, but in most places of the body it measures about 0.10 inches thick. Human skin performs multiple functions. Not only does it form walls against both internal and external pathogens in the environment, it contains many nerve endings that interpret both heat and cold vibration. Skin regulates heat loss, helps prevent water loss, and aids in the interpretation of mood, physical state, and beauty. The two layers of skin are the epidermis that protects against environmental assaults, and the dermis that allows skin to be elastic, strong and durable. Unlike animals, human skin does not contain an underlying muscle sheath. A massive injury to the skin caused by a chemical spill or fire can be a devastating occurrence, both physically as well as mentally. Injuries to the skin can cause the patient to be exposed to infection, heat loss and even death. After a full-thickness injury the epidermis can regenerate, but the dermis heals by forming granulation tissue, later developing into scar tissue.
Due to the simplicity and convenience of programming in the Python language, our team has decided to utilize multiple Raspberry Pi motherboards in order to program the incubation device, as the Raspberry Pi can be programmed with Python.As a result, since not all components can be made compatible for programming via the Raspberry Pi, it is necessary to determine specific sensors and modules that can communicate with and be controlled by the Raspberry Pi board. Thus, this paper will be discussing the several properties and functionalities of our incubator and the Raspberry Pi components that will allow us to achieve them. I utilized several different sources such as Raspberry Pi Tutorials to come up with a comprehensive assembly of components. One of the necessary functions of our device will be to monitor and regulate the air quality and temperature within the incubator. This is due to the fact that the baby will not be able to survive unless it grows in an environment with an identical temperature to that within a mother’s womb. Thus, we will need a temperature sensor as well as some sort of temperature regulator to ensure that the temperature within the incubator is optimal. It is also important that air quality is maintained within the incubator. The baby must be properly oxygenated, and protected from any harmful chemicals or organisms in the air.Additionally, a high air humidity must be maintained in order to prevent skin and respiratory evaporation within the baby.
The skin is one of the most intricate organs of the human body. It not only is one of the largest organs contained in the human body encompassing up to 22 square feet, it contains many sweat glands, blood vessels, and nerve endings. The skin on the palms of the hand and the soles of the feet is the thickest, but in most places of the body it measures about 0.10 inches thick. Human skin performs multiple functions. Not only does it form walls against both internal and external pathogens in the environment, it contains many nerve endings that interpret both heat and cold vibration. Skin regulates heat loss, helps prevent water loss, and aids in the interpretation of mood, physical state, and beauty. The two layers of skin are the epidermis that protects against environmental assaults, and the dermis that allows skin to be elastic, strong and durable. Unlike animals, human skin does not contain an underlying muscle sheath. A massive injury to the skin caused by a chemical spill or fire can be a devastating occurrence, both physically as well as mentally. Injuries to the skin can cause the patient to be exposed to infection, heat loss and even death. After a full-thickness injury the epidermis can regenerate, but the dermis heals by forming granulation tissue, later developing into scar tissue.
Due to the simplicity and convenience of programming in the Python language, our team has decided to utilize multiple Raspberry Pi motherboards in order to program the incubation device, as the Raspberry Pi can be programmed with Python.As a result, since not all components can be made compatible for programming via the Raspberry Pi, it is necessary to determine specific sensors and modules that can communicate with and be controlled by the Raspberry Pi board. Thus, this paper will be discussing the several properties and functionalities of our incubator and the Raspberry Pi components that will allow us to achieve them. I utilized several different sources such as Raspberry Pi Tutorials to come up with a comprehensive assembly of components. One of the necessary functions of our device will be to monitor and regulate the air quality and temperature within the incubator. This is due to the fact that the baby will not be able to survive unless it grows in an environment with an identical temperature to that within a mother’s womb. Thus, we will need a temperature sensor as well as some sort of temperature regulator to ensure that the temperature within the incubator is optimal. It is also important that air quality is maintained within the incubator. The baby must be properly oxygenated, and protected from any harmful chemicals or organisms in the air.Additionally, a high air humidity must be maintained in order to prevent skin and respiratory evaporation within the baby.
Failure to Thrive
FailureToThrivebyNiko |
FailuretoTrivebyJames |
Synthetic Skin Analysis
syntheticskinanalysisbybethany |
syntheticskinanalysisbysumanth |
Sound and Premature Development
soundandprematuredevelopmentbytom |
soundandprematuredevelopmentbyalex |
Two Separate Premature Syndromes
BronchopulmonaryDysplasiabyConrad |
NeonatalRespiratoryDistressSyndromebyMyles |
Premature Infant Mortality
PrematureInfantMortalitybyPranav |
prematureinfantmortalitybylucas |
Sensors and Feedback Modules
SensorsandFeedbackbyHizami |
sensorsandfeedbackmodulesbyaydin |
sensorsandfeedbackbyjon |
Biomimicry in Medicine
biomimicryinmedicinebyjade |
biomimcryinmedicinebycyril |
Infant Mortality
infantmortalitybykadir |
infantmortalitybyprastik |