Device Models and CAD
GSR Ring Attributes
The Galvanic Skin Response Ring features a sleek composition that highlights a thoughtful ergonomic design paired with innovative electronics and lightweight materials to ensure comfort. The Bluetooth module works to transmit data to the main chest enclosure of the device. This mitigates the bulk that would general be associated with a multi-sensory diagnostic device because the sensors are able to reach their pulse points wirelessly and the patient will feel comfortable in their everyday life. The monitoring systems are not massive, however they showcase pin point accuracy and seamless data collection integrated through wireless transmission. Aside from the primary benefits of a sensory device that mimics a commonly worn object such as a ring to ensure the patient is comfortable, the technology and parts integrated into the ring are inexpensive when mass produced. Thus, the Fibrometer presents itself as a scalable venture when considering the device from a market entry standpoint. The machine learning integration additionally enhances its capability of assisting to formulate an objective diagnosis.
The Chest Piece
Adhesive Sensor Patches
Design Benefits
The adhesive sensor patches are tailored to create a non-invasive monitoring system that seamlessly integrates with the patient’s everyday life. The sensor monitors key physiological signals that require sensors to be placed on the patient’s pulse points. The benefits of this design is that the patches are light weight and are able to house the transmission software and sensory devices in order to transmit the necessary data to the Bluetooth module which will send it to the chest piece. The design is meant to be easily worn and unrestrictive to the movement of the patient.
The chest piece design offers a numerous amount of advantages. The enclosure within the chest piece is lightweight and in a contour shape that ensure the maximum user comfort. All of the materials used are hypoallergenic and prevent skin irritation. The non-invasive sensors within the enclosure are very accurate and work to monitor vital signs needed for diagnosis. The wireless transmission that is located within the enclosure ensures that data can be moved into external entities without complication. This is paramount considering the machine learning model that will analyze the data to identify trends. To learn more about our model, you can find information on the landing page that corresponds. The chest piece is resemblant of a tank top to ensure that the user feels comfortable within society. One of the paramount strong points of the design is that the patient is able to integrate into society and will not have to wear bulky, wired sensor compositions. Rather, the Fibrometer is able to blend into society as the sensors are lightweight and hidden behind the thoughtful design. The components of the chest piece are shown and they primarily consist of data transmission units and some secondary sensors.
Design Benefits
Design Benefits
The headset piece features a 64 electrode EEG array that is utilized to collect brain wave data. Although it may look as though this is the bulkiest most abnormal part of the Fibrometer, it is because the EEG headset only needs to be worn by the patient while they sleep. Thus, the design has been made into a cap with evenly spaced EEG electrodes to make up the array. The design allows the patient to rest while the sensors work to collect data. The bulk of wiring has been eliminated through the design to ensure that the patient maintains an undisturbed sleep. This is significantly more advantageous that alternative options such as taking FMS specific pain relief which can cause lack of sleep or simply dealing with the chronic pain of a prolonged diagnosis.
Heart Rate Variability Sensor
The HRV monitoring system of the Fibrometer is designed to offer significant benefit to the patient. This compact wearable design ensures the ease of use for the consumer without restricting their movement in a way that impacts their daily lifestyle. The sensor is designed as a wearable patch and it allows for seamless data transmission. The sensor is able to curate precise data and transmit it through the wireless units using the data transmission module. This sensor improves the Fibrometer’s diagnostic system and completes the sensor combination that is features within the device. The design allows for the sensors to be integrated into a person’s life without drawing attention or restricting daily productivity.