Abstract: A textile-based electrode system includes a first fabric layer having an inner and an outer surface. The inner surface includes a knitted electrode configured to be placed in contact with the skin of a user. A second fabric layer is disposed and configured to contact the outer surface of the first fabric layer. The second fabric layer includes a knitted conductive pathway configured to be electrically coupled to the knitted electrode. Furthermore, a third fabric layer is configured and disposed to contact the second fabric layer. A connector is disposed on the third fabric layer and is configured to be electrically coupled to the knitted conductive pathway. The second fabric layer can be folded about a first fold axis and the third fabric layer can be folded about a second fold axis to place the second fabric layer in contact with the first fabric layer and the third fabric layer.

Abstract: Embodiments described herein relate generally to devices, systems and methods for optimizing and masking compression in a biosensing garment. The biosensing garment has a first fabric portion configured to be disposed about a circumferential region of a user, the first fabric portion having an inner surface including electrode sensor assembly configured to be placed in contact with the skin of the user, the first fabric portion having a first compression rating; and a second fabric portion extending from the first fabric portion, the second fabric portion having a second compression rating less than the first compression rating.

Abstract: Embodiments described herein relate generally to devices, systems and methods for optimizing and masking compression in a biosensing garment. The biosensing garment has a first fabric portion configured to be disposed about a circumferential region of a user, the first fabric portion having an inner surface including electrode sensor assembly configured to be placed in contact with the skin of the user, the first fabric portion having a first compression rating; and a second fabric portion extending from the first fabric portion, the second fabric portion having a second compression rating less than the first compression rating.

Abstract: Embodiments described herein relate generally to devices, systems and methods for optimizing and masking compression in a biosensing garment. The biosensing garment has a first fabric portion configured to be disposed about a circumferential region of a user, the first fabric portion having an inner surface including electrode sensor assembly configured to be placed in contact with the skin of the user, the first fabric portion having a first compression rating; and a second fabric portion extending from the first fabric portion, the second fabric portion having a second compression rating less than the first compression rating.

Abstract: A textile-based electrode system includes a first fabric layer having an inner and an outer surface. The inner surface includes a knitted electrode configured to be placed in contact with the skin of a user. A second fabric layer is disposed and configured to contact the outer surface of the first fabric layer. The second fabric layer includes a knitted conductive pathway configured to be electrically coupled to the knitted electrode. Furthermore, a third fabric layer is configured and disposed to contact the second fabric layer. A connector is disposed on the third fabric layer and is configured to be electrically coupled to the knitted conductive pathway. The second fabric layer can be folded about a first fold axis and the third fabric layer can be folded about a second fold axis to place the second fabric layer in contact with the first fabric layer and the third fabric layer.

Abstract: A textile-based electrode system includes a first fabric layer having an inner and an outer surface. The inner surface includes a knitted electrode configured to be placed in contact with the skin of a user. A second fabric layer is disposed and configured to contact the outer surface of the first fabric layer. The second fabric layer includes a knitted conductive pathway configured to be electrically coupled to the knitted electrode. Furthermore, a third fabric layer is configured and disposed to contact the second fabric layer. A connector is disposed on the third fabric layer and is configured to be electrically coupled to the knitted conductive pathway. The second fabric layer can be folded about a first fold axis and the third fabric layer can be folded about a second fold axis to place the second fabric layer in contact with the first fabric layer and the third fabric layer.

Abstract: Embodiments described herein relate generally to devices, systems and methods for optimizing and masking compression in a biosensing garment. The biosensing garment has a first fabric portion configured to be disposed about a circumferential region of a user, the first fabric portion having an inner surface including electrode sensor assembly configured to be placed in contact with the skin of the user, the first fabric portion having a first compression rating; and a second fabric portion extending from the first fabric portion, the second fabric portion having a second compression rating less than the first compression rating.

Abstract: A textile-based electrode system includes a first fabric layer having an inner and an outer surface. The inner surface includes a knitted electrode configured to be placed in contact with the skin of a user. A second fabric layer is disposed and configured to contact the outer surface of the first fabric layer. The second fabric layer includes a knitted conductive pathway configured to be electrically coupled to the knitted electrode. Furthermore, a third fabric layer is configured and disposed to contact the second fabric layer. A connector is disposed on the third fabric layer and is configured to be electrically coupled to the knitted conductive pathway. The second fabric layer can be folded about a first fold axis and the third fabric layer can be folded about a second fold axis to place the second fabric layer in contact with the first fabric layer and the third fabric layer.