Advantage of low quality in short life cycle products

This study explores the factors influencing customers’ purchase intention for low quality products. The traditional thinking is that products with high quality and low price will win more customers. However, we can notice that high quality products usually have high cost. Therefore, it is necessary to do more research on how customers can accept low quality products, in order to and help companies to win more customers and market share. We take fast fashion products and smart phones as empirical studies, collecting data from customer’s online survey. Based on the methodology of fuzzy-set qualitative comparative analysis (fsQCA), we analyses the relationship between the factors of short lifecycle, low quality, design and price and influence customer purchase intention. It shows that the product price and design are major driving factors for customers to accept low quality products. The result has implications for other industries that sell products with low cost

Testing the Lorentz and CPT Symmetry with CMB polarizations and a non-relativistic Maxwell Theory

We present a model for a system involving a photon gauge field and a scalar field at quantum criticality in the frame of a Lifthitz-type non-relativistic Maxwell theory. We will show this model gives rise to Lorentz and CPT violation which leads to a frequency-dependent rotation of polarization plane of radiations, and so leaves potential signals on the cosmic microwave background temperature and polarization anisotropies.Comment: 7 pages, 2 figures, accepted on JCAP, a few references adde

Kinematics simulation of temperature measuring robot for steelmaking furnace

Aiming at the temperature measurement in the refining process, a temperature measurement robot that can go deep into the furnace for temperature measurement is designed. Based on the D-H parameter modeling method, the kinematics of the manipulator is modeled, and the forward and inverse kinematics of the manipulator are solved. The workspace of the manipulator is simulated by Monte Carlo method on MATLAB, and the joint trajectory of the manipulator is planned by using Robotics Toolbox. The angular displacement, angular velocity and angular acceleration curves of each joint are obtained through simulation. The simulation results show that the manipulator runs smoothly and continuously, meeting the requirements of kinematics

Kinematics simulation of temperature measuring robot for steelmaking furnace

Aiming at the temperature measurement in the refining process, a temperature measurement robot that can go deep into the furnace for temperature measurement is designed. Based on the D-H parameter modeling method, the kinematics of the manipulator is modeled, and the forward and inverse kinematics of the manipulator are solved. The workspace of the manipulator is simulated by Monte Carlo method on MATLAB, and the joint trajectory of the manipulator is planned by using Robotics Toolbox. The angular displacement, angular velocity and angular acceleration curves of each joint are obtained through simulation. The simulation results show that the manipulator runs smoothly and continuously, meeting the requirements of kinematics

Cyclic cosmology from Lagrange-multiplier modified gravity

We investigate cyclic and singularity-free evolutions in a universe governed by Lagrange-multiplier modified gravity, either in scalar-field cosmology, as well as in $f(R)$ one. In the scalar case, cyclicity can be induced by a suitably reconstructed simple potential, and the matter content of the universe can be successfully incorporated. In the case of $f(R)$-gravity, cyclicity can be induced by a suitable reconstructed second function $f_2(R)$ of a very simple form, however the matter evolution cannot be analytically handled. Furthermore, we study the evolution of cosmological perturbations for the two scenarios. For the scalar case the system possesses no wavelike modes due to a dust-like sound speed, while for the $f(R)$ case there exist an oscillation mode of perturbations which indicates a dynamical degree of freedom. Both scenarios allow for stable parameter spaces of cosmological perturbations through the bouncing point.Comment: 8 pages, 3 figures, references added, accepted for publicatio

Quantum broadcast communication

Broadcast encryption allows the sender to securely distribute his/her secret to a dynamically changing group of users over a broadcast channel. In this paper, we just consider a simple broadcast communication task in quantum scenario, which the central party broadcasts his secret to multi-receiver via quantum channel. We present three quantum broadcast communication schemes. The first scheme utilizes entanglement swapping and Greenberger-Horne-Zeilinger state to realize a task that the central party broadcasts his secret to a group of receivers who share a group key with him. In the second scheme, based on dense coding, the central party broadcasts the secret to multi-receiver who share each of their authentication key with him. The third scheme is a quantum broadcast communication scheme with quantum encryption, which the central party can broadcast the secret to any subset of the legal receivers

Holographic interacting dark energy in the braneworld cosmology

We investigate a model of brane cosmology to find a unified description of the radiation-matter-dark energy universe. It is of the interacting holographic dark energy with a bulk-holographic matter $\chi$. This is a five-dimensional cold dark matter, which plays a role of radiation on the brane. Using the effective equations of state $\omega^{\rm eff}_{\rm \Lambda}$ instead of the native equations of state $\omega_{\rm \Lambda}$, we show that this model cannot accommodate any transition from the dark energy with $\omega^{\rm eff}_{\rm \Lambda}\ge-1$ to the phantom regime $\omega^{\rm eff}_{\rm \Lambda}<-1$. Furthermore, the case of interaction between cold dark matter and five dimensional cold dark matter is considered for completeness. Here we find that the redshift of matter-radiation equality $z_{\rm eq}$ is the same order as $z^{\rm ob}_{\rm eq}=2.4\times10^{4} \Omega_{\rm m}h^2$. Finally, we obtain a general decay rate $\Gamma$ which is suitable for describing all interactions including the interaction between holographic dark energy and cold dark matter.Comment: 17 pages, 4 figure