A fishing lure and method of casting are disclosed. In one aspect, a lure assembly includes a fishing hook having an eyelet and a bend separated by a shank, the bend terminating at a point separated from the shank by a gape. The lure assembly further includes a hook appurtenance attached to the fishing hook and positioned past the bend generally aligned with the shank of the fishing hook. The hook appurtenance includes an ergonomic mass forming a resilient structure for gripping by a person, the ergonomic mass having a size smaller than a gape of the hook to avoid interfering with operation of the fishing hook.

The present disclosure relates to systems and methods for balance index determination. For example, a wearable apparatus may have at least one gyroscope configured to measure angular velocity about a first axis; at least one inertial measurement device (IMU) configured to measure deviation along a second axis and a third axis; at least one memory storing instructions; and at least one processor configured to execute the instructions to: receive angular velocity measurements over a period of time from the at least one gyroscope; receive deviations from the second axis and from the third axis over the period of time from the at least one IMU; weight the deviations based on directions associated with the deviations; and generate a composite balance index based on the angular velocity measurements, the weighted deviations from the second axis, and the weighted deviations from the third axis.

The fishing lure launching device is a mechanical device. The fishing lure launching device launches a payload. In the first potential embodiment of the disclosure, the payload comprises one or more elements selected from the group consisting of a fishing line, a fishing lure, a leader and a swivel. An example of a fishing lure is a spinnerbait lure. The fishing lure launching device launches the payload on a controlled trajectory. The fishing lure launching device is a pneumatically operated device. The fishing lure launching device comprises a bucket, a transfer shaft, a thrust structure, a trigger valve, an adjustable pressure regulator, and a gas source. The payload is contained in the bucket. The transfer shaft attaches the bucket to the thrust structure. The thrust structure generates the forces necessary to launch the payload out of the bucket. The trigger valve initiates the operation of the thrust structure.

The fishing lure launching device is a mechanical device. The fishing lure launching device launches a payload. In the first potential embodiment of the disclosure, the payload comprises one or more elements selected from the group consisting of a fishing line, a fishing lure, a leader and a swivel. An example of a fishing lure is a spinnerbait lure. The fishing lure launching device launches the payload on a controlled trajectory. The fishing lure launching device is a pneumatically operated device. The fishing lure launching device comprises a bucket, a transfer shaft, a thrust structure, a trigger valve, an adjustable pressure regulator, and a gas source. The payload is contained in the bucket. The transfer shaft attaches the bucket to the thrust structure. The thrust structure generates the forces necessary to launch the payload out of the bucket. The trigger valve initiates the operation of the thrust structure.

A bag to contain bait, which is to be used with a trotline, is disclosed. The bag comprises a continuous side wall which defines an interior region, a primary opening, a plurality of secondary openings, and a tertiary opening. The bag includes a slide fastener secured to the side wall and surrounding the tertiary opening. Also disclosed is a mechanism, to be used with a predetermined length of the trotline which has a plurality of such bags secured to the trotline at spaced-apart intervals.

A bag to contain bait, which is to be used with a trotline, is disclosed. The bag comprises a continuous side wall which defines an interior region, a primary opening, a plurality of secondary openings, and a tertiary opening. The bag includes a slide fastener secured to the side wall and surrounding the tertiary opening. Also disclosed is a mechanism, to be used with a predetermined length of the trotline which has a plurality of such bags secured to the trotline at spaced-apart intervals.

The present disclosure relates to systems and methods for balance index determination. For example, a wearable apparatus may have at least one gyroscope configured to measure angular velocity about a first axis; at least one inertial measurement device (IMU) configured to measure deviation along a second axis and a third axis; at least one memory storing instructions; and at least one processor configured to execute the instructions to: receive angular velocity measurements over a period of time from the at least one gyroscope; receive deviations from the second axis and from the third axis over the period of time from the at least one IMU; weight the deviations based on directions associated with the deviations; and generate a composite balance index based on the angular velocity measurements, the weighted deviations from the second axis, and the weighted deviations from the third axis.

Fishing tackle casting device mounts to fishing rod for casting fishing lure including housing having a groove, and a trigger mechanism including a U-shaped rod. The fishing tackle casting device mounts to the handle or fishing pole of the fishing rod. The fishing rod includes a line reel having line drawn from a line reel along the fishing pole. Line includes a fishing lure that locks to U-shaped rod through a groove causing the fishing pole to bend and store energy. The fishing pole may direct toward targeted area and the trigger mechanism actuation releases the fishing lure from U-shaped rod through the groove causing tension release of bent fishing pole, making fishing lure and line travel to targeted area. The trigger mechanism includes trigger support mechanism for connecting line from the line reel and helps control speed/release of tension on the line when the fishing lure is cast.

Fishing tackle casting device mounts to fishing rod for casting fishing lure including housing having a groove, and a trigger mechanism including a U-shaped rod. The fishing tackle casting device mounts to the handle or fishing pole of the fishing rod. The fishing rod includes a line reel having line drawn from a line reel along the fishing pole. Line includes a fishing lure that locks to U-shaped rod through a groove causing the fishing pole to bend and store energy. The fishing pole may direct toward targeted area and the trigger mechanism actuation releases the fishing lure from U-shaped rod through the groove causing tension release of bent fishing pole, making fishing lure and line travel to targeted area. The trigger mechanism includes trigger support mechanism for connecting line from the line reel and helps control speed/release of tension on the line when the fishing lure is cast.

The present disclosure relates to systems and methods for balance index determination. For example, a wearable apparatus may have at least one gyroscope configured to measure angular velocity about a first axis; at least one inertial measurement device (IMU) configured to measure deviation along a second axis and a third axis; at least one memory storing instructions; and at least one processor configured to execute the instructions to: receive angular velocity measurements over a period of time from the at least one gyroscope; receive deviations from the second axis and from the third axis over the period of time from the at least one IMU; weight the deviations based on directions associated with the deviations; and generate a composite balance index based on the angular velocity measurements, the weighted deviations from the second axis, and the weighted deviations from the third axis.