This may seem ridiculous and unbelievable, but people can automate mouse movement with a battery-operated toy. They attach the toy to their mouse and let it drag the peripheral around. As a result, they fool their monitoring tool into detecting mouse movement or activity.
Some people find a way to watch videos while faking productivity on their monitors. What they do is open a full-screen window of the content they want to watch. Then, they launch another window for a work-related program.
With Traqq time tracking app, you will be able to identify if your employee is using another window as a distraction. This monitoring app has smart algorithms that identify activity levels based on mouse and keyboard movements.
There are two versions of IDA, a paid Pro version and a free Starter version. The free version is limited to x86 and does not support plugins. The Pro version offers full functionality with a large number of supported processor architectures and plugin support.
She was monitoring the overnight brain activity of children with autism or developmental delay using electroencephalography (EEG) and noticed that their brain wave patterns were strikingly different from those of their neurotypical peers.
Stretchable electronics have become one of the most vigorously studied research fields as they enable close fitting on curvilinear surfaces or direct attachment to the human skin that is highly important in new generation of portable and wearable electronics1,2. One of the key applications of stretchable electronics have been electronic skins that can mimic its functions, or even beyond that by enabling conversion of various stimuli produced by the human body and surrounding environment to electrical signals (pressure, strain, temperature, humidity, etc.)3,4. These can be widely applied in biomedical sensing for personalized healthcare1,3,4,5,6,7,8,9 or sports performance monitoring3,5,8,9, and human-machine interfaces for robotics, etc1,3,4,5,6,10.
The fabricated structure of the Ag-DS/CF was homogenously pre-stretched to approximately 150% before screen-printing the cavity with the Ag-ink. The pre-stretching was released after curing, causing buckling-induced wrinkling of the Ag-ink pattern. The method was used because a non-wrinkled pattern could not withstand the strains during dynamic loadings. This was because of the formation of large and irreversible cracks perpendicular to the applied strain (X-axis) due to poor adhesion of the ink to the silicone elastomer. The buckling mechanism (e.g. wrinkled or wavy structure)9,15,37,45 has been proven to be an effective strategy for fabricating stretchable devices from non-stretchable materials36, as the applied stress can be effectively absorbed by expansion of the buckled structure until fully straightened, and also the adhesion of the ink is improved46. Thus, the stretchability performance was dependent on the level of pre-strain47 and electrically active areas of Ag-DS/CF were observed to remain intact during repeatable stretching up to strains of 75% in the direction of the X-axis for configuration 50. Regardless, the fabrication process offers a simple, low-cost, and scalable solution with the possibility for it to be large-area compatible. 153554b96e