Workstation height-adjustment monitoring

The claimed invention is: 1 . A workstation comprising: a frame; a lift assembly connected to the frame; a height adjustable work surface connected to the frame via the lift assembly, the lift assembly configured to translate the height adjustable work surface relative to the frame to vary a height of the height adjustable work surface; a switch configured to transmit a signal when the lift assembly is operated to vary the height of the height adjustable work surface; a processor in communication with processing circuitry; and a memory coupled to the processor, the memory including instructions that, when executed by the processor causes the processing circuitry to: determine, based on the signal, a count indicative of activation of the switch; increment, based on the count, a cycle count indicative of a number of activations of the switch; determine a comparison between the cycle count and a cycle threshold; and generate a control signal based on the comparison. 2 . The workstation of claim 1 , wherein the workstation includes an engagement interface proximate to the height adjustable work surface, the switch configured to transmit the signal via interaction with the engagement interface by a user. 3 . The workstation of claim 1 , wherein the workstation includes a timing device in communication with the processor, the instructions configure the processor and the timing device to: generate, upon receiving the signal, a first time mark; generate, upon no longer receiving the signal, a second time mark; calculate, by finding a difference between the first time mark and the second time mark, a run time of the lift assembly; and store, in a set of usage statistics of the workstation, the run time of the lift assembly. 4 . The workstation of claim 3 , wherein the instructions configure the processor to: determine, by multiplying an average velocity by the run time of the lift assembly, a displacement of the height adjustable work surface. 5 . The workstation of claim 4 , wherein the average velocity is determined from a measured acceleration between the first time mark and the second time mark, the measured acceleration received from an accelerometer coupled to the lift assembly. 6 . The workstation of claim 4 , wherein a user of the workstation selects the average velocity between 1.3 to 2 inches per second. 7 . The workstation of claim 3 , wherein the set of usage statistics include one or more of the height of the height adjustable work surface, an amount of change in the height of the height adjustable work surface, a displacement of the height adjustable work surface, a direction of displacement of the height adjustable work surface, a run time of the lift assembly or an average velocity of the height adjustable work surface. 8 . The workstation of claim 3 , wherein the workstation includes a display including a touch interface, the touch interface engageable by a user of the workstation, the switch is activatable via engagement of the touch interface by the user of the workstation. 9 . The workstation of claim 8 , wherein one or more usage statistics of the set of usage statistics of the workstation is presented on the display. 10 . The workstation of claim 8 , wherein the control signal generates one or more of a safety notification, a set of operating instructions, or a maintenance notification on the display. 11 . A workstation comprising: a frame; a lift assembly connected to the frame; a height adjustable work surface connected to the frame via the lift assembly, the lift assembly configured to translate the height adjustable work surface relative to the frame to vary a height of the height adjustable work surface, the lift assembly including: a lock rod coupled to the frame; and a brake assembly selectively engageable with the lock rod, the brake assembly, when engaged by the lock rod, configured to maintain the height of the height adjustable work surface, and when disengaged by the lock rod, configured to allow the height adjustable work surface to translate relative to the frame; a switch configured to transmit a signal indicative of engagement of the brake assembly with the lock rod; a processor in communication with processing circuitry; and a memory coupled to the processor, the memory including instructions that, when executed by the processor causes the processing circuitry to: determine, based on the signal, a count indicative of activation of the switch; increment, based on the count, a cycle count indicative of a number of activations of the switch; determine a comparison between the cycle count and a cycle threshold; and generate a control signal based on the comparison. 12 . The workstation of claim 11 , wherein the workstation includes a timing device in communication with the processor, the instructions configure the processor and the timing device to: generate, upon receiving the signal, a first time mark; generate, upon no longer receiving the signal, a second time mark; calculate, by finding a difference between the first time mark and the second time mark, a run time of the lift assembly; and store, in a set of usage statistics of the workstation, the run time of the lift assembly. 13 . The workstation of claim 12 , wherein the instructions configure the processor to: determine, by multiplying an average velocity by the run time of the lift assembly, a displacement of the height adjustable work surface. 14 . The workstation of claim 13 , wherein the average velocity is determined from a measured acceleration between the first time mark and the second time mark, the measured acceleration received from an accelerometer coupled to the lift assembly. 15 . The workstation of claim 12 , wherein the set of usage statistics include one or more of the height of the height adjustable work surface, an amount of change in the height of the height adjustable work surface, a displacement of the height adjustable work surface, a direction of displacement of the height adjustable work surface, a run time of the lift assembly, or an average velocity of the height adjustable work surface. 16 . A workstation comprising: a frame; a lift assembly connected to the frame; a height adjustable work surface connected to the frame via the lift assembly, the lift assembly configured to translate the height adjustable work surface relative to the frame to vary a height of the height adjustable work surface, the lift assembly including: a lock rod coupled to the frame; and a brake assembly selectively engageable with the lock rod, the brake assembly, when engaged by the lock rod, configured to maintain the height of the height adjustable work surface, and when disengaged by the lock rod, configured to allow the height adjustable work surface to translate relative to the frame; a switch configured to transmit a signal indicative of engagement of the brake assembly with the lock rod; a translation sensor connected to the lift assembly, the translation sensor configured to transmit a translation signal indicative of translation of the height adjustable work surface relative to the frame; a processor in communication with processing circuitry; and a memory coupled to the processor, the memory including instructions that, when executed by the processor causes the processing circuitry to: determine, based on the translation signal, a displacement of the height adjustable work surface; and store, as a set of usage statistics of the workstation, the displacement of the height adjustable work surface in the memory.