Hwa-Soon Choi scite author profile

Most current systems have ignored security vulnerability concerned with boot firmware. It is highly likely that boot firmware may cause serious system errors, such as hardware manipulations by malicious programs or code, the operating system corruption caused by malicious code and software piracy under a condition of no consideration of security mechanism because boot firmware has an authority over external devices as well as hardware controls. This paper proposed a structural security mechanism based on software equipped with encrypted bootstrap patterns different from pre-existing bootstrap methods in terms of securely loading an operating system, searching for malicious codes and preventing software piracy so as to provide reliability of boot firmware. Moreover, through experiments, it proved its superiority in detection capability and overhead ranging between 1.5 %~3 % lower than other software security mechanisms.

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The Influence of Wedged Insoles on Lower Extremity Joints during Gait

Kwon¹,

Choi²,

Chung³

et al. 2007

Journal of the Ergonomics Society of Korea

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Despite the widespread use of laterally wedged insoles for patients with knee osteoarthritis and medially wedged insoles for controlling rearfoot pronation, an understanding of the effects of wedged insoles was limited and sometimes controversial. The objective of this study was to evaluate the effect of wedged insoles on the kinematics and kinetics of normal gait. Ten male subjects without history of lower limb disorders were recruited. Each subject performed four gait cycles under each of seven conditions; shod with 5°, 8° and 15° medially wedged insoles, shod with neutral insole, and shod with 5°, 8° and 15° laterally wedged insoles. In order to determine statistical differences among seven conditions, the measured temporal spatial variables, angular displacements, joint moments, and ground reaction forces were compared with a one-way analysis of variance. Some significant changes induced by wedged insoles were apparent in joint moments and ground reaction forces. The medially wedged insole increased the laterally directed ground reaction force and varus moments at the ankle and the knee during the heel contact phase. The laterally wedged insole decreased the laterally directed ground reaction force and varus moments at the ankle and the knee.

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Hwa-Soon Choi

Evaluation of driver's discomfort and postural change using dynamic body pressure distribution

Software-based Encryption Pattern Bootstrap for Secure Execution Environment

The Influence of Wedged Insoles on Lower Extremity Joints during Gait

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