Abstract: The invention provides systems and methods for monitoring the wellbeing of a fetus by the non-invasive detection and analysis of fetal cardiac activity data, utilizing a plurality of acoustic sensors.

Abstract: The invention provides systems and methods for monitoring the wellbeing of a fetus by the non-invasive detection and analysis of fetal cardiac electrical activity data.

Abstract: The invention provides systems and methods for monitoring the wellbeing of a fetus by the non-invasive detection and analysis of fetal cardiac electrical activity data.

Abstract: The invention provides systems and methods for monitoring the wellbeing of a fetus by the non-invasive detection and analysis of fetal cardiac electrical activity data.

Abstract: Presented herein is a system for transmitting sounds to an in-utero infant, that is worn by a pregnant woman, said system comprising a flexible carrier with two arms and adapted to accommodate the continuously changing shape of the abdomen of a pregnant woman; an array of speakers disposed on the arms of the carrier and substantially surrounding the in-utero infant with the sounds emitted from said speakers; an amplifier operatively associated with the array of speakers that enables tailoring the frequencies and tonal qualities of the sounds emitted from the array of speakers to levels suitable for an in-utero infant; and an audio device, operatively connected to the array of speakers and the amplifier, that provides a source from which sounds are played back.

Abstract: An evolutionary system and method to promote the development of developing humans via auditory stimulation. The system addresses the need of growing developing humans for constantly changing auditory stimulation environments. The disclosed system comprises an auditory stimulation assembly and a corresponding set of various parental environments such as a maternity belt, a crib, a toy or a stroller. The auditory stimulation assembly may be enveloped within each and every parental environment creating a different auditory stimulating parental environment. For each and every parental environment, the auditory stimulation assembly may be configured, either automatically or manually, to produce audio signals with the characteristics most suitable to the specific parental environments, which specifically designed for the unique stage of the developing human.

Abstract: The present invention is a floating island (FI), which is a buoyant apparatus for a watery environment such as, for example a swimming pool. The FI may be designed as a playful apparatus enabling users to safely climb upon the FI. The FI may be designed especially, yet not exclusively, for users such as children, toddlers and the like. The FI may comprise a buoyant-section that may be separated and sealed from a weight-section. The weight-section may be a hollow cavity walled by a substantially solid material, where the weight section's walls may comprise upper and lower holes to allow water enter and exit the chamber like cavity in the weight-section and function as a dynamic weight. The buoyant-section may allow floating of the FI.

Abstract: An ergonomic pedaling apparatus for travel in water, enabling a user to practice swimming skills, comprising: an ergonomic supporting body for supporting the upper part of the user's body when frontally mounted over the body, where the body includes a curved triangular structure having three vertices constructed by three connected chassis members; three floatation units each connected to a separate vertex of the body; and a pedaling assembly comprising two scooped pedals enabling the user to progress in water by hand pedaling the pedals. The floatation units include: a first and a second back floatation units each comprising a float, where the floatability of the back floatation units is substantially equal and a third front floatation unit comprising two float parts vertically positioned one on top of the other. The floatability of the combined floats of the third floatation unit may be substantially equal to the floatability of each of the back floatation units.

Abstract: An ergonomic pedaling apparatus for travel in water, enabling a user to practice swimming skills, comprising: an ergonomic supporting body for supporting the upper part of the user's body when frontally mounted over the body, where the body includes a curved triangular structure having three vertices constructed by three connected chassis members; three floatation units each connected to a separate vertex of the body; and a pedaling assembly comprising two scooped pedals enabling the user to progress in water by hand pedaling the pedals. The floatation units include: a first and a second back floatation units each comprising a float, where the floatability of the back floatation units is substantially equal and a third front floatation unit comprising two float parts vertically positioned one on top of the other. The floatability of the combined floats of the third floatation unit may be substantially equal to the floatability of each of the back floatation units.