Di‐Rong Chen
YOU?
Author Swipe
View article: Correction: Approximation of Nonlinear Functionals Using Deep ReLU Networks
Correction: Approximation of Nonlinear Functionals Using Deep ReLU Networks Open
View article: Optimization Based Layer-Wise Pruning Threshold Method for Accelerating Convolutional Neural Networks
Optimization Based Layer-Wise Pruning Threshold Method for Accelerating Convolutional Neural Networks Open
Among various network compression methods, network pruning has developed rapidly due to its superior compression performance. However, the trivial pruning threshold limits the compression performance of pruning. Most conventional pruning t…
View article: Learning Bilateral Clipping Parametric Activation for Low-Bit Neural Networks
Learning Bilateral Clipping Parametric Activation for Low-Bit Neural Networks Open
Among various network compression methods, network quantization has developed rapidly due to its superior compression performance. However, trivial activation quantization schemes limit the compression performance of network quantization. …
View article: Approximation of Nonlinear Functionals Using Deep ReLU Networks
Approximation of Nonlinear Functionals Using Deep ReLU Networks Open
In recent years, functional neural networks have been proposed and studied in order to approximate nonlinear continuous functionals defined on $L^p([-1, 1]^s)$ for integers $s\ge1$ and $1\le p<\infty$. However, their theoretical properties…
View article: Coefficient regularizer based simultaneous regression estimation
Coefficient regularizer based simultaneous regression estimation Open
View article: A new sequence convergent to Euler–Mascheroni constant
A new sequence convergent to Euler–Mascheroni constant Open
In this paper, we provide a new sequence converging to the Euler–Mascheroni constant. Finally, we establish some inequalities for the Euler–Mascheroni constant by the new sequence.
View article: Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Our study provides the first systematical identification of avian lncRNAs using ssRNA-seq analysis and offers a resource of embryonically expressed lncRNAs in zebra finch. We also predicted the biological function of identified lncRNAs.
View article: Additional file 11: Table S7. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 11: Table S7. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Protein domains enriched in clades F, G and L. (XLSX 442 kb)
View article: Additional file 10: Table S6. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 10: Table S6. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Gene set enrichment analysis using Fisherâ s exact test. (XLSX 1040 kb)
View article: Additional file 6: Table S4. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 6: Table S4. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Tables of the collected human, chicken, bovine lncRNAs. (XLSX 90 kb)
View article: Additional file 3: Table S2. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 3: Table S2. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Information of the annotated genes. (XLSX 1440 kb)
View article: Additional file 12: Figure S4. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 12: Figure S4. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
The location of the aligned CUFF.19772.1 (black bar) and BHLHE41 in human genome. CUFF.19772.1 was aligned to the 3â UTR of human gene BHLHE41. (TIF 234 kb)
View article: Additional file 9: Table S5. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 9: Table S5. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
Gene set enrichment analysis using gProfiler. (XLSX 743 kb)
View article: Additional file 4: Table S3. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch
Additional file 4: Table S3. of Identification and evolutionary analysis of long non-coding RNAs in zebra finch Open
2,949 identified transcripts information. (XLSX 517 kb)
View article: Some new sequences that converge to the Ioachimescu constant
Some new sequences that converge to the Ioachimescu constant Open
The purpose of this paper is to give some sequences that converge quickly to the Ioachimescu constant by a multiple-correction method.
View article: Regulatory Differences in Natal Down Development between Altricial Zebra Finch and Precocial Chicken
Regulatory Differences in Natal Down Development between Altricial Zebra Finch and Precocial Chicken Open
Birds can be classified into altricial and precocial. The hatchlings of altricial birds are almost naked, whereas those of precocial birds are covered with natal down. This regulatory divergence is thought to reflect environmental adaptati…
View article: Some new continued fraction sequence convergent to the Somos quadratic recurrence constant
Some new continued fraction sequence convergent to the Somos quadratic recurrence constant Open
View article: Transcriptomic analyses of regenerating adult feathers in chicken
Transcriptomic analyses of regenerating adult feathers in chicken Open
View article: Detection of human papillomavirus in squamous cell carcinoma arising from dermoid cysts
Detection of human papillomavirus in squamous cell carcinoma arising from dermoid cysts Open
View article: Some sharp continued fraction inequalities for the Euler-Mascheroni constant
Some sharp continued fraction inequalities for the Euler-Mascheroni constant Open
The aim of this paper is to establish some new continued fraction inequalities for the Euler-Mascheroni constant by multiple-correction method.
View article: Additional file 12: Table S11. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 12: Table S11. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Canonical pathways for cEF vs. cMF differentially expressed gene set. (XLS 46Â kb)
View article: Additional file 3: Table S2. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 3: Table S2. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Gene name and primer sequences used in RNA-seq validation. (XLSX 12Â kb)
View article: Additional file 8: Table S7. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 8: Table S7. of Transcriptomic analyses of regenerating adult feathers in chicken Open
cEF vs. cMF differentially expressed gene set (shown in FPKM and fold change). (XLSX 86Â kb)
View article: Additional file 13: Table S12. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 13: Table S12. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Canonical pathways for cMF vs. cLF differentially expressed gene set. (XLS 30Â kb)
View article: Additional file 7: Table S6. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 7: Table S6. of Transcriptomic analyses of regenerating adult feathers in chicken Open
cEB vs. cEF differentially expressed gene set (shown in FPKM and fold change). (XLSX 94Â kb)
View article: Additional file 11: Table S10. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 11: Table S10. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Canonical pathways for cEB vs. cEF differentially expressed gene set. (XLS 35Â kb)
View article: Additional file 10: Table S9. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 10: Table S9. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Canonical pathways for cEB vs. cLB differentially expressed gene set. (XLS 50Â kb)
View article: Additional file 4: Table S3. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 4: Table S3. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Transcriptome Expression Data. Table of mapped reads to Galgal4 transcripts for all 15 data sets. FPKM (Fragments per kilobase of exon per million fragments mapped): normalized transcript abundance values for each gene in the indicated tis…
View article: Additional file 5: Table S4. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 5: Table S4. of Transcriptomic analyses of regenerating adult feathers in chicken Open
Positively selected and/or rapid evolving genes in avian lineages [29] that are expressed in all feather samples. (XLSX 11Â kb)
View article: Additional file 9: Table S8. of Transcriptomic analyses of regenerating adult feathers in chicken
Additional file 9: Table S8. of Transcriptomic analyses of regenerating adult feathers in chicken Open
cMF vs. cLF differentially expressed gene set (shown in FPKM and fold change). (XLSX 62Â kb)