Abstract: Modular double pin load sensing hitches including two-piece pin mounts are disclosed herein. An example apparatus disclosed herein includes a pin mount including a first piece, and a second piece, separate from and to be disposed opposite to the first piece. The apparatus further includes and a receiver tube including a first mounting ear to be coupled to the first piece via a first pin and a second mounting ear to be coupled to the second piece via a second pin.

Abstract: Methods and apparatus for a hitch including multiple pins coupled to an outboard frame are disclosed. An example apparatus disclosed herein include a hitch including a first pin, a second pin parallel to the first pin, a third pin orthogonal to the first pin, and a fourth pin parallel to the third pin, wherein the first pin, the second pin, the third pin and the fourth pin are to couple the hitch to a frame of a vehicle. The example apparatus includes a load manager to determine a load condition based on sensor data from at least one of the first pin, the second pin, the third pin, or the fourth pin.

Abstract: Methods and apparatus for a dual reacting, single load sensing element coupled to a hitch receiver are disclosed herein. An example computer readable medium comprising instructions, which when executed, cause one or more processors to determine a location of a hitch ball of a hitch of a vehicle, determine a load condition of the hitch based on the location and data received from a sensor of a first pin of the hitch, the hitch including a second pin, the first pin to react loads in a first direction and a second direction, the second pin to react loads in the first direction and in response to the load condition satisfying an alert threshold, alert a user of the load condition.

Abstract: Methods, apparatus, systems and articles of manufacture are disclosed for payload estimation and fault detection using hitch integrated sensors. An example apparatus includes a pin orientation determiner to determine a first orientation of a first pin and a second orientation of a second pin, the first pin and the second pin disposed within a hitch and calculate a relative orientation of the first pin and the second pin based on the first orientation and the second orientation. The example apparatus further includes a hitch condition detector to determine if a physical change has occurred in the hitch by comparing the relative orientation to an installation orientation of the first pin and the second pin.

Abstract: Methods and apparatus are disclosed for a load-sensing hitch utilizing a system of strain gauges. An example apparatus includes a receiver tube, a side member, a crossbar coupled to the receiver tube and the side member, the cross including a support including a first end, a second end and a mid-portion located between the first end and the second end, the mid-portion having a cross-sectional area smaller than the cross-sectional area of the first end or the cross-sectional area of the second end and a strain gauge disposed within the mid-portion.

Abstract: Methods and apparatus for a dual reacting, single load sensing element coupled to a hitch receiver are disclosed herein. An example apparatus includes a hitch configured to be coupled to a vehicle, the hitch including a crossbar, a receiver tube, and a pin housing coupled to the receiver tube. The pin housing includes a first pin including a load sensor, the first pin reacting loads in a first direction and a second direction and a second pin, the second pin reacting loads in the first direction, the first pin and the second pin acting as the only load path between the receiver tube and the crossbar.

Abstract: Methods, apparatus, systems and articles of manufacture are disclosed for payload estimation and fault detection using hitch integrated sensors. An example apparatus includes a pin orientation determiner to determine a first orientation of a first pin and a second orientation of a second pin, the first pin and the second pin disposed within a hitch and calculate a relative orientation of the first pin and the second pin based on the first orientation and the second orientation. The example apparatus further includes a hitch condition detector to determine if a physical change has occurred in the hitch by comparing the relative orientation to an installation orientation of the first pin and the second pin.

Abstract: Methods and apparatus are disclosed for a load-sensing hitch utilizing a system of strain gauges. An example apparatus includes a hitch including a first support including a first end, a second end, and a mid-portion located between the first end and the second end, the mid-portion having a cross-sectional area smaller than the cross-sectional area of the first end or the cross-sectional area of the second end, a strain gauge located at the mid-portion of the first support, a frame attachment to couple the hitch to a frame of a vehicle, the support coupled to the frame attachment, and a load manager to determine a load condition based on sensor data from the strain gauge.

Abstract: Modular double pin load sensing hitches including two-piece pin mounts are disclosed herein. An example apparatus disclosed herein includes a pin mount including a first piece, and a second piece, separate from and to be disposed opposite to the first piece. The apparatus further includes and a receiver tube including a first mounting ear to be coupled to the first piece via a first pin and a second mounting ear to be coupled to the second piece via a second pin.

Abstract: The present disclosure provides techniques for measuring and compensating for clock drift errors in time-aware networks and time-sensitive applications, where a time-aware system (TAS) measures clock drift, and compensates for the measured clock drift, and makes predictions of future clock drift values based on history and other physical measurements. Existing messages used for measuring link delay and/or used for time synchronization can be used for frequency measurement (and thus clock drift measurement), and this measured drift can be applied as a correction factor whenever synchronization is determined and/or used. The predicted clock drift rate can be based on various probability distributions including linear, Kalman filters, and/or others. Other embodiments may be described and/or claimed.

Abstract: Systems and methods to detect attacks on the clocks of devices. In time sensitive networks are described. Particularly, the disclosed systems and methods provide detection and mitigation of timing synchronization attacks based on key performance indicators related to the protecting transmission windows in data streams of the time sensitive networks.

Abstract: Methods and apparatus for Time-Sensitive Networking Coordinated Transfer Learning in industrial settings are disclosed. An example apparatus includes at least one memory, instructions in the apparatus, and processor circuitry to execute the instructions to cause performance of an operation by a first machine according to a first configuration, process a performance metric of the performance of the operation by the first machine to determine whether the performance metric is within a threshold range, and in response to a determination that the performance metric is not within the threshold range, cause performance of the operation by a second machine according to a second configuration different from the first configuration.

Abstract: Methods and apparatus are disclosed for a load-sensing hitch utilizing a system of strain gauges. An example apparatus includes a hitch including a first support including a first end, a second end, and a mid-portion located between the first end and the second end, the mid-portion having a cross-sectional area smaller than the cross-sectional area of the first end or the cross-sectional area of the second end, a strain gauge located at the mid-portion of the first support, a frame attachment to couple the hitch to a frame of a vehicle, the support coupled to the frame attachment, and a load manager to determine a load condition based on sensor data from the strain gauge.

Abstract: Alcohol water-based, edible ink formulations comprising scalenohedral calcium carbonate particles are provided. The calcium carbonate particles can act as a white pigment to impart white color properties to the edible ink formulations which provide improved print quality and durability. The edible ink formulations can be printed onto a variety of surfaces, including the surfaces of food products such as confectionery products and snack food products.

Abstract: Methods, apparatus, systems and articles of manufacture are disclosed for a modular double pin load sensor coupled to a hitch receiver. An example disclosed apparatus to be coupled to a receiver tube includes a crossbar interface to be coupled to a crossbar of a hitch, a pin adapter coupled to the crossbar interface, a first load-sensing pin disposed within the pin adapter, and a second load-sensing pin disposed within the pin adapter.

Abstract: A vehicle is able to be set to operate in a factory mode (as opposed to a normal mode) in which certain features are disabled, such as an alarm system, a power liftgate, etc. This allows assembly workers to assemble, test, and calibrate the vehicle without various systems in the vehicle being undesirably activated. While in the factory mode, the vehicle can accomplish multiple ignition on/off cycles while being tested or driven between stations. A steering column and connected steering wheel are provided in the vehicle, and are situated between an instrument panel and a front seat. In response to the ignition completing an on/off cycle, a controller commands a motor to move the steering wheel and steering column to a predetermined position that is based on a visibility of the instrument panel relative to the steering wheel and steering column.

Abstract: The present invention relates to an edible container made of liquid, sugar, and one or more hydrocolloids. The edible container may hold hot or cold liquids for extended periods of time.

Abstract: An assembly includes a suspension link, an arm, an actuator, and a lock. The arm is connected to the suspension link. The arm includes a plurality of holes. The actuator is connected to the arm. The lock includes a pin releasably engageable with the plurality of holes of the arm.

Abstract: An assembly includes a suspension link, an arm, an actuator, and a lock. The arm is connected to the suspension link. The arm includes a plurality of holes. The actuator is connected to the arm. The lock includes a pin releasably engageable with the plurality of holes of the arm.

Abstract: Methods and apparatus for a hitch including multiple pins coupled to an outboard frame are disclosed. An example apparatus disclosed herein include a hitch including a first pin, a second pin parallel to the first pin, a third pin orthogonal to the first pin, and a fourth pin parallel to the third pin, wherein the first pin, the second pin, the third pin and the fourth pin are to couple the hitch to a frame of a vehicle. The example apparatus includes a load manager to determine a load condition based on sensor data from at least one of the first pin, the second pin, the third pin, or the fourth pin.