71 research outputs found
40 Gbit/s silicon-organic hybrid (SOH) phase modulator
A 40 Gbit/s electro-optic modulator is demonstrated. The modulator is based on a slotted silicon waveguide filled with an organic material. The silicon organic hybrid (SOH) approach allows combining highly nonlinear electro-optic organic materials with CMOS-compatible silicon photonics technology
100 Gbit/s electro-optic modulator and 56 Gbits/s wavelength converter for DQPSK data in silicon-organic hybrid (SOH) technology
CMOS-compatible silicon photonics combined with covers of chi (2) or chi (3)-nonlinear organic material allows electro-optic modulators and all-optical wavelength converters for data rates of 100 Gbit/s and beyond. The devices are not impaired by free carriers
Silicon high-speed electro-optic modulator
A 40 Gbit/s electro-optic modulator is demonstrated. The modulator is based on a slotted silicon waveguide filled with a nonlinear organic material. A modulation voltage-length product of V π L = 0.21 Vcm can be achieved
High-level characteristics of or-and independent and-parallelism in prolog
Although studies of a number of parallel implementations of logic programming languages are now available, their results are difficult to interpret due to the multiplicity of factors involved, the effect of each of which is difficult to sepárate. In this paper we present the results of a high-level simulation study of or- and independent
and-parallelism with a wide selection of Prolog programs that aims to determine the intrinsic amount of parallelism,
independently of implementation factors, thus facilitating this separation. We expect this study will be instrumental in better understanding and comparing results from actual implementations, as shown by some examples provided in the paper. In addition, the paper examines some of the issues and tradeoffs associated with the combination of and- and or-parallelism and proposes reasonable solutions based on the simulation data obtained
Coupling of lower and upper extremity forces during walking with assistive devices in community-dwelling older adults.
Coupling of lower and upper extremity forces during walking with assistive devices in community-dwelling older adults.
Alpert, D.A., Barklund, K.B., Buchanan, C., Roberts, D.B., Spitalnic, K.L., Peters, D.M.
Department of Rehabilitation and Movement Science
Doctor of Physical Therapy Program, The University of Vermont
ABSTRACT
Background & Objectives:
This study was conducted to establish reliable methodology to examine the coupling between upper extremity (UE) and lower extremity (LE) force production in older adults who use an assistive device (AD) for walking. ADs are commonly used in the community-dwelling population to aid in mobility, balance, propulsion, and speed; however, ADs may limit the ability to produce forces through the LEs. Additionally, AD use may result in excessive amounts of force placed through the UE(s) during gait, which can lead to potential overuse injuries. Currently, there are no studies that have examined the coupling of UE and LE forces during gait. Results from our study may provide insight regarding force production with AD-assisted gait, contributing to a better understanding of the strategies utilized by the older adult population during walking with an AD.
Methods:
Data will be collected from individuals between the ages of 60-85 years of age who regularly use an AD with walking, and who have no significant weight-bearing pain or previous neurological conditions. Participants will complete clinical measures of walking ability and strength, and will walk across an walkway with embedded force plates while using an instrumented AD (cane or walker) reflective of their typical AD. Multiple walking trials will be performed in order to capture a minimum of 3-5 trials of combined UE/LE force production for both self-selected (SSWS) and fast walking speed (FWS) conditions. The order of walking speed conditions (SSWS, FWS) will be randomized between subjects to minimize order and fatigue effects. Normality of data will be assessed using the Shapiro-Wilk test. Test-retest reliability of UE/LE force production measures across walking trials will be assessed using intra-class correlation coefficient (ICC). Correlational analyses will be used to examine relationships between measures of force production and clinical measures of LE strength and walking speed. Correlations between muscle activity (EMG) and force production will also be assessed.
Results:
Data collection and analyses are currently ongoing
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