163,070 research outputs found
Real-time food intake classification and energy expenditure estimation on a mobile device
© 2015 IEEE.Assessment of food intake has a wide range of applications in public health and life-style related chronic disease management. In this paper, we propose a real-time food recognition platform combined with daily activity and energy expenditure estimation. In the proposed method, food recognition is based on hierarchical classification using multiple visual cues, supported by efficient software implementation suitable for realtime mobile device execution. A Fischer Vector representation together with a set of linear classifiers are used to categorize food intake. Daily energy expenditure estimation is achieved by using the built-in inertial motion sensors of the mobile device. The performance of the vision-based food recognition algorithm is compared to the current state-of-the-art, showing improved accuracy and high computational efficiency suitable for realtime feedback. Detailed user studies have also been performed to demonstrate the practical value of the software environment
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Process Parameters Optimization for Ultrasonically Consolidated Fiber-Reinforced Metal Matrix Composites
As an emerging rapid prototyping technology, Ultrasonic Consolidation (UC) has
been used to successfully fabricate metal matrix composites (MMC). The intent of this
study is to identify the optimum combination of processing parameters, including
oscillation amplitude, welding speed, normal force, operating temperature and fiber
orientation, for manufacture of long fiber-reinforced MMCs. The experiments were
designed using the Taguchi method, and an L25 orthogonal array was utilized to
determine the influences of each parameter. SiC fibers of 0.1mm diameter were
successfully embedded into an Al 3003 metal matrix. Two methods were employed to
characterize the bonding between the fiber and matrix material: optical/electron
microscopy and push-out tests monitored by an acoustic emission (AE) sensor. SEM
images and data from push-out tests were analyzed and optimum combinations of
parameters were achieved.Mechanical Engineerin
Quantum Phase Transitions beyond the Landau's Paradigm in Sp(4) Spin System
We propose quantum phase transitions beyond the Landau's paradigm of Sp(4)
spin Heisenberg models on the triangular and square lattices, motivated by the
exact Sp(4) SO(5) symmetry of spin-3/2 fermionic cold atomic system
with only wave scattering. On the triangular lattice, we study a phase
transition between the spin ordered phase and a
spin liquid phase, this phase transition is described by an O(8) sigma model in
terms of fractionalized spinon fields, with significant anomalous scaling
dimensions of spin order parameters. On the square lattice, we propose a
deconfined critical point between the Neel order and the VBS order, which is
described by the CP(3) model, and the monopole effect of the compact U(1) gauge
field is expected to be suppressed at the critical point.Comment: 6 pages, 3 figure
Neuronal imaging with ultrahigh dynamic range multiphoton microscopy
Multiphoton microscopes are hampered by limited dynamic range, preventing weak sample features from being detected in the presence of strong features, or preventing the capture of unpredictable bursts in sample strength. We present a digital electronic add-on technique that vastly improves the dynamic range of a multiphoton microscope while limiting potential photodamage. The add-on provides real-time negative feedback to regulate the laser power delivered to the sample, and a log representation of the sample strength to accommodate ultrahigh dynamic range without loss of information. No microscope hardware modifications are required, making the technique readily compatible with commercial instruments. Benefits are shown in both structural and in-vivo functional mouse brain imaging applications.R21 EY027549 - NEI NIH HH
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