Howard Huang scite author profile

Mesostructured silica waveguide arrays were fabricated with a combination of acidic sol-gel block copolymer templating chemistry and soft lithography. Waveguiding was enabled by the use of a low-refractive index (1.15) mesoporous silica thin film support. When the mesostructure was doped with the laser dye rhodamine 6G, amplified spontaneous emission was observed with a low pumping threshold of 10 kilowatts per square centimeter, attributed to the mesostructure's ability to prevent aggregation of the dye molecules even at relatively high loadings within the organized high-surface area mesochannels of the waveguides. These highly processible, self-assembling mesostructured host media and claddings may have potential for the fabrication of integrated optical circuits.

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Downlink capacity evaluation of cellular networks with known-interference cancellation

Viswanathan¹,

Venkatesan²,

Huang³

2003

IEEE J. Select. Areas Commun.

319

190

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Linear Precoding in Cooperative MIMO Cellular Networks with Limited Coordination Clusters

Ng¹,

Huang²

2010

IEEE J. Select. Areas Commun.

182

138

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In a cooperative multiple-antenna downlink cellular network, maximization of a concave function of user rates is considered. A new linear precoding technique called soft interference nulling (SIN) is proposed, which performs at least as well as zero-forcing (ZF) beamforming. All base stations share channel state information, but each user's message is only routed to those that participate in the user's coordination cluster. SIN precoding is particularly useful when clusters of limited sizes overlap in the network, in which case traditional techniques such as dirty paper coding or ZF do not directly apply. The SIN precoder is computed by solving a sequence of convex optimization problems. SIN under partial network coordination can outperform ZF under full network coordination at moderate SNRs. Under overlapping coordination clusters, SIN precoding achieves considerably higher throughput compared to myopic ZF, especially when the clusters are large.

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Increasing downlink cellular throughput with limited network MIMO coordination

Huang¹,

Trivellato

Hottinen

et al. 2009

IEEE Trans. Wireless Commun.

213

133

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Abstract-Single-user, multiuser, and network MIMO performance is evaluated for downlink cellular networks with 12 antennas per site, sectorization, universal frequency reuse, scheduled packet-data, and a dense population of stationary users. Compared to a single-user MIMO baseline system with 3 sectors per site, network MIMO coordination is found to increase throughput by a factor of 1.8 with intra-site coordination among antennas belonging to the same cell site. Intra-site coordination performs almost as well as a highly sectorized system with 12 sectors per site. Increasing the coordination cluster size from 1 to 7 sites increases the throughput gain factor to 2.5.

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A Near-Optimum Technique using Linear Precoding for the MIMO Broadcast Channel

Boccardi¹,

Huang²

2007

123

105

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Howard Huang

Mirrorless Lasing from Mesostructured Waveguides Patterned by Soft Lithography

Downlink capacity evaluation of cellular networks with known-interference cancellation

Linear Precoding in Cooperative MIMO Cellular Networks with Limited Coordination Clusters

Increasing downlink cellular throughput with limited network MIMO coordination

A Near-Optimum Technique using Linear Precoding for the MIMO Broadcast Channel

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