Your search keyword '"Yindi Jing"' showing total 5 results

1. Three-transmit-antenna space-time codes based on SU (3)

Author

Yindi Jing and Hassibi, Babak

Subjects

Business, Computers, Electronics, Electronics and electrical industries

Abstract

Systematic design methods of space-time codes, which are appropriate for three-transmit-antenna differential modulation, are presented. The structures of the codes are motivated by the special unitary Lie group SU (3).

Published

2005

2. Max-Min Optimal Joint Power Control and Distributed Beamforming for Two-Way Relay Networks Under Per-Node Power Constraints

Author

Yindi Jing and Shahram Shahbazpanahi

Subjects

Beamforming, Computer science, Node (networking), ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Data_CODINGANDINFORMATIONTHEORY, law.invention, Signal-to-noise ratio, Relay, law, Control theory, Signal Processing, Computer Science::Networking and Internet Architecture, Network performance, Electrical and Electronic Engineering, Communication complexity, Computer Science::Information Theory, Power control

Abstract

This paper deals with optimal joint user power control and relay distributed beamforming for two-way relay networks, where two end-users exchange information through multiple relays, each of which is assumed to have its own power constraint. The problem includes the design of the distributed beamformer at the relays and the power control scheme for the two end-users to optimize the network performance. Considering the overall two-way network performance, we maximize the lower signal-to-noise ratio (SNR) of the two communication links. For single-relay networks, this maximization problem is solved analytically. For multi-relay networks, we propose an iterative numerical algorithm to find the optimal solution. While the complexity of the optimal algorithm is too high for large networks, two sub-optimal algorithms with low complexity are also proposed, which are numerically shown to perform close to the optimal technique. It is also shown via simulation that for two-way networks with both single relay and multiple relays, proper user power control and relay distributed beamforming can significantly improve the network performance, especially when the power constraints of the two end-users in the networks are unbalanced. Our approach also improves the power efficiency of the network largely.

Published

2012

3. Multisource Transmission for Wireless Relay Networks With Linear Complexity

Author

Hamid Jafarkhani, Yindi Jing, and Liangbin Li

Subjects

FOS: Computer and information sciences, business.industry, Computer Science - Information Theory, Information Theory (cs.IT), ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Data_CODINGANDINFORMATIONTHEORY, Cooperative diversity, law.invention, Single antenna interference cancellation, Diversity gain, Relay, law, Signal Processing, Computer Science::Networking and Internet Architecture, Electrical and Electronic Engineering, Communication complexity, Symbol rate, Telecommunications, business, Algorithm, Decoding methods, Computer Science::Information Theory, Mathematics, Channel use

Abstract

This paper considers transmission schemes in multi-access relay networks (MARNs) where $J$ single-antenna sources send independent information to one $N$-antenna destination through one $M$-antenna relay. For complexity considerations, we propose a linear framework, where the relay linearly transforms its received signals to generate the forwarded signals without decoding and the destination uses its multi-antennas to fully decouple signals from different sources before decoding, by which the decoding complexity is linear in the number of sources. To achieve a high symbol rate, we first propose a scheme called DSTC-ICRec in which all sources' information streams are concurrently transmitted in both the source-relay link and the relay-destination link. In this scheme, distributed space-time coding (DSTC) is applied at the relay, which satisfies the linear constraint. DSTC also allows the destination to conduct the zero-forcing interference cancellation (IC) scheme originally proposed for multi-antenna systems to fully decouple signals from different sources. Our analysis shows that the symbol rate of DSTC-ICRec is $1/2$ symbols/source/channel use and the diversity gain of the scheme is upperbounded by $M-J+1$. To achieve a higher diversity gain, we propose another scheme called TDMA-ICRec in which the sources time-share the source-relay link. The relay coherently combines the signals on its antennas to maximize the signal-to-noise ratio (SNR) of each source, then concurrently forwards all sources' information. The destination performs zero-forcing IC. It is shown through both analysis and simulation that when $N \ge 2J-1$, TDMA-ICRec achieves the same maximum diversity gain as the full TDMA scheme in which the information stream from each source is assigned to an orthogonal channel in both links, but with a higher symbol rate., Comment: submitted to IEEE Transaction on Signal Processing

Published

2011

4. Three-transmit-antenna space-time codes based on SU(3)

Author

Babak Hassibi and Yindi Jing

Subjects

Block code, Discrete mathematics, Concatenated error correction code, Reed–Muller code, Unitary matrix, Topology, Linear code, Group code, Signal Processing, Turbo code, Electrical and Electronic Engineering, Space–time code, Caltech Library Services, Computer Science::Information Theory, Mathematics

Abstract

Fully diverse constellations, i.e., a set of unitary matrices whose pairwise differences are nonsingular, are useful in multiantenna communications especially in multiantenna differential modulation, since they have good pairwise error properties. Recently, group theoretic ideas, especially fixed-point-free (fpf) groups, have been used to design fully diverse constellations of unitary matrices. Here, we give systematic design methods of space-time codes which are appropriate for three-transmit-antenna differential modulation. The structures of the codes are motivated by the special unitary Lie group SU(3). One of the codes, which is called the AB code, has a fast maximum-likelihood (ML) decoding algorithm using complex sphere decoding. Diversity products of the codes can be easily calculated, and simulated performance shows that they are better than group-based codes, especially at high rates and as good as the elaborately designed nongroup code.

Published

2005

5. Unitary Space-Time Modulation via Cayley Transform.

Author

Yindi Jing, Narayan and Hassibi, Babak

Subjects

*ANTENNAS (Electronics), *RADIO transmitter fading, *ELECTRONIC modulation, *SIGNALS & signaling, *MATRICES (Mathematics), *WIRELESS communications

Abstract

A recently proposed method for communicating with multiple antennas over block fading channels is unitary spacetime modulation (USTM). In this method, the signals transmitted from the antennas, viewed as a matrix with spatial and temporal dimensions, form a unitary matrix, i.e., one with orthonormal columns. Since channel knowledge is not required at the receiver, USTM schemes are suitable for use on wireless links where channel tracking is undesirable or infeasible, either because of rapid changes in the channel characteristics or because of limited system resources. Recent results have shown that if suitably designed, USTM schemes can achieve full channel capacity at high SNR and, moreover, that all this can be done over a single coherence interval, provided the coherence interval and number of transmit antennas are sufficiently large, which is a phenomenon referred to as autocoding. While all this is well recognized, what is not clear is how to generate good performing constellations of (nonsquare) unitary matrices that lend themselves to efficient encoding/decoding. The schemes proposed so far either exhibit poor performance, especially at high rates, or have no efficient decoding algorithms. In this paper, we propose to use the Cayley transform to design USTM constellations. This work can be viewed as a generalization, to the nonsquare case, of the Cayley codes that have been proposed for differential USTM. The codes are designed based on an information-theoretic criterion and lend themselves to polynomial-time (often cubic) near-maximum-likelihood decoding using a sphere decoding algorithm. Simulations suggest that the resulting codes allow for effective high-rate data transmission in multiantenna communication systems without knowing the channel. However, our preliminary results do not show a substantial advantage over training-based schemes. [ABSTRACT FROM AUTHOR]

Published

2003