In Experiments 1 and 2, aiming movements were performed with and without visual feedback in young and elderly adults. The initial (acceleration and deceleration phases) and secondary movement components were analyzed. Although deceleration phase accuracy decreased without visual feedback in both age groups, accuracy diminished as movement amplitude increased only in the elderly. This suggested that the elderly were more dependent on visual feedback to modify motor programs for longer duration movements. Velocity also increased less with increasing amplitude and target size in the elderly, which was related to impaired preprogramming (acceleration phase) and implementation (deceleration phase) of higher forces. This conclusion was confirmed directly in Experiment 2 because only the deceleration phase was affected by the removal of visual feedback of arm position when availability of visual information could not be predicted before movement.

The cap pushing response (CPR) is a free flying technique where honey bees are trained to fly to a target where they push a cap to reveal a hidden food source. In this paper, we report the results of three studies. First, we provide information on three techniques used to shape the CPR. Second, we provide preliminary data suggesting that honey bees can learn the CPR through observing a previously shaped bee. Finally, we provide data on the ability of a honey bee to recall the CPR response. In addition to the three studies, we also continue to advocate for the use of Observation Orientated Modeling (OOM) for comparative investigations.