Sensors, actuators, energy sources, and data processing for enabling artificial intelligent (AI) integrated automated features of intelligent electronic shoes are provided. The intelligent footwear can gather information from the shoe and send the data to a user interface for monitoring the physical activities of the wearer. A smart thermal actuation system can control the internal temperature of the shoe to offer a comfortable experience to the user. Intelligent footwear can also have systems for multipurpose sensing and actuation modules, which can use energy harvested by the user locomotion or by an energy source accompanied by artificial intelligence to gather and process information for ensuring an enhanced user experience.

A foot force detection system includes first and second shoe force detection units. The first shoe force detection unit includes pressure sensors, a processing module, and a communication unit. The pressure sensors are operably coupled to produce first force data. The processing module is operably coupled to produce a first digital representation of the first force data. The second shoe force detection unit includes its own pressure sensors, a processing module, and a communication unit. The first and second shoe force detection units communicate with each other via the communication units.

A method includes determining, by a processing module of a foot force detection system, an athletic mode. The method further includes, when the athletic mode is active, determining, by the processing module, an athletic burst mode. The method further includes determining, by the processing module, a sampling rate for the foot force detection system based on the athletic burst mode for sampling foot force data.

The present invention relates to footwear with flexible display means, comprising: a) at least one strap that is comprised of a flexible thin display panel, b) a sole comprising attachment latches adapted to attach the at least one strap to the sole; and an electrical circuitry configured to enable the flexible thin display panel to display digital content.

The present invention relates to footwear with flexible display means, comprising: a) at least one strap that is comprised of a flexible thin display panel, b) a sole comprising attachment latches adapted to attach the at least one strap to the sole; and an electrical circuitry configured to enable the flexible thin display panel to display digital content.

The application provides for a toe massage slipper that resembles a common shoe. This motion toe massage slipper has number of piks and nano piks combinations within the sole of the slipper. The toe massage slipper will be equipped with power source so the entire device can operate. This will enable the user to enjoy the benefits of receiving a toe massage while on the go. The toe massage slipper is also equipped with a power switch, such that when the motors are not in use, the device operates as a functional slipper and the piks are removable.

Aspects of the present disclosure describe systems, methods, and structures that scavenge mechanical energy to provide electrical energy to a wearable, where the mechanical energy is scavenged by a bending-strain-based transducer that includes a non-resonant energy harvester. By employing a non-resonant energy harvester that operates in bending mode, more electrical energy can be generated that possible with prior-art energy harvesters. In some embodiments the bending-strain-based transducer also includes a sensor and/or a haptic device. Some transducers in accordance with the present disclosure comprise a piezoelectric layer comprising a low-K piezoelectric material, such as aluminum nitride, which enables generation of higher voltage and power/energy output and/or a thinner transducer. As a result, transducers in accordance with the present disclosure can be included in wearables for which large transducer thickness would be problematic, such as sole members (e.g., shoe insoles, midsoles or outsoles), garments, bras, handbags, backpacks, and the like.

An interactive visual display platform including low power wearable satellite accessories for identifying and interfacing with users. A visual display sensing surface generates graphical images according to objects detected proximate to the surface. Three dimensional gaming upon a two dimensional surface by the creation of environments according to a user's physical movements.

An immobility system for a free-fall environment includes an immobility device including at least one suction cup configured to engage the immobility device to a surface, and a valve that, when activated, results in release of the at least one suction cup from engagement with the surface. A remote controller is spaced apart from the valve and is configured to selectably transmit an activation signal to the valve. An immobility device includes at least one suction cup configured to engage the immobility device to a surface, and a valve that, when activated, results in release of the at least one suction cup from engagement with the surface. A receiver at the device is configured to receive an activation signal and activate the valve.

This present invention relates to a customizable intelligent footwear. More specifically, the intelligent footwear identifies the needs and requirements of the users and accordingly can self-adjust its various features such as ankle support, arch support, quarter support, and others to enhance comfort and performance of the footwear. The intelligent footwear is integrated with a plurality of sensors and chipsets that collects information regarding user's needs, and based on the collected information adjusts different parameters of the footwear. Additionally, the footwear can be easily paired with a compatible software application to allow the wearers to access information related to their footwear features, step counts, sports related content, walking habits, and other relevant information.