Skip to main content Accessibility help

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
×
  1. Home
  2. Search

Refine search

Refine search

Access:
Content type:
Publication date:
Apply   From and To filters
Subject: Show more
Journals Show more
Publishers: Show more
Societies Show more
Series: Show more
Collections: Show more

Actions for selected content:

Select all | Deselect all
  • View selected items
  • Export citations
  • Download PDF (zip)
  • Save to Kindle
  • Save to Dropbox
  • Save to Google Drive

Save Search

You can save your searches here and later view and run them again in "My saved searches".

Please provide a title, maximum of 40 characters.
Cancel
×

346 results

Page 1 of 18

  • Genetic overlap between functional impairment and depression and anxiety symptom severity: evidence from the GLAD Study

  • Megan Skelton, Jessica Mundy, Abigail R. ter Kuile, Brett N. Adey, Chérie Armour, Joshua E. J. Buckman, Jonathan R. I. Coleman, Molly R. Davies, Colette R. Hirsch, Matthew Hotopf, Ian R. Jones, Gursharan Kalsi, Georgina Krebs, Sang Hyuck Lee, Yuhao Lin, Andrew M. McIntosh, Alicia J. Peel, Christopher Rayner, Katharine A. Rimes, Daniel J. Smith, Katherine N. Thompson, David Veale, James T. R. Walters, Christopher Hübel, Gerome Breen, Thalia C. Eley
  • Journal:
    Psychological Medicine / Volume 55 / 2025
    Published online by Cambridge University Press:
    05 August 2025, e224
    • Article
      • You have access
      • Open access
    • PDF
    • HTML
    • Export citation
  • Background

    Functional impairment in daily activities, such as work and socializing, is part of the diagnostic criteria for major depressive disorder and most anxiety disorders. Despite evidence that symptom severity and functional impairment are partially distinct, functional impairment is often overlooked. To assess whether functional impairment captures diagnostically relevant genetic liability beyond that of symptoms, we aimed to estimate the heritability of, and genetic correlations between, key measures of current depression symptoms, anxiety symptoms, and functional impairment.

    Methods

    In 17,130 individuals with lifetime depression or anxiety from the Genetic Links to Anxiety and Depression (GLAD) Study, we analyzed total scores from the Patient Health Questionnaire-9 (depression symptoms), Generalized Anxiety Disorder-7 (anxiety symptoms), and Work and Social Adjustment Scale (functional impairment). Genome-wide association analyses were performed with REGENIE. Heritability was estimated using GCTA-GREML and genetic correlations with bivariate-GREML.

    Results

    The phenotypic correlations were moderate across the three measures (Pearson’s r = 0.50–0.69). All three scales were found to be under low but significant genetic influence (single-nucleotide polymorphism-based heritability [h2SNP] = 0.11–0.19) with high genetic correlations between them (rg = 0.79–0.87).

    Conclusions

    Among individuals with lifetime depression or anxiety from the GLAD Study, the genetic variants that underlie symptom severity largely overlap with those influencing functional impairment. This suggests that self-reported functional impairment, while clinically relevant for diagnosis and treatment outcomes, does not reflect substantial additional genetic liability beyond that captured by symptom-based measures of depression or anxiety.

Channel Codes
  • Classical and Modern
  • 2nd edition
  • William E. Ryan, Shu Lin, Stephen G. Wilson
  • Published online:
    06 March 2025
    Print publication:
    21 November 2024
  • Channel coding lies at the heart of digital communication and data storage. Fully updated, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This new edition includes over 50 new end-of-chapter problems and new figures and worked examples throughout. The authors emphasize the practical approach and present clear information on modern channel codes, including turbo and low-density parity-check (LDPC) codes, detailed coverage of BCH codes, Reed-Solomon codes, convolutional codes, finite geometry codes, product codes as well as polar codes for error correction and detection, providing a one-stop resource for classical and modern coding techniques. Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then extend to advanced topics such as code ensemble performance analyses and algebraic code design.

  • Mental health and sleep correlates of self-reported outdoor daylight exposure in over 13,000 adults with depression

  • Jacob J. Crouse, Shin Ho Park, Brittany L. Mitchell, Enda M. Byrne, Sarah E. Medland, Tian Lin, Jan Scott, Zsofi de Haan, Emiliana Tonini, Frank Iorfino, Naomi R. Wray, Nicholas G. Martin, Ian B. Hickie
  • Journal:
    European Psychiatry / Volume 68 / Issue 1 / 2025
    Published online by Cambridge University Press:
    17 February 2025, e41
    • Article
      • You have access
      • Open access
    • PDF
    • HTML
    • Export citation
  • Background

    Increasing daylight exposure might be a simple way to improve mental health. However, little is known about daylight-symptom associations in depressive disorders.

    Methods

    In a subset of the Australian Genetics of Depression Study (N = 13,480; 75% female), we explored associations between self-reported number of hours spent in daylight on a typical workday and free day and seven symptom dimensions: depressive (overall, somatic, psychological); hypo-manic-like; psychotic-like; insomnia; and daytime sleepiness. Polygenic scores for major depressive disorder (MDD); bipolar disorder (BD); and schizophrenia (SCZ) were calculated. Models were adjusted for age, sex, shift work status, employment status, season, and educational attainment. Exploratory analyses examined age-stratified associations (18–24 years; 25–34 years; 35–64 years; 65 and older). Bonferroni-corrected associations (p < 0.004) are discussed.

    Results

    Adults with depression reported spending a median of one hour in daylight on workdays and three hours on free days. More daylight exposure on workdays and free days was associated with lower depressive (overall, psychological, somatic) and insomnia symptoms (p’s<0.001), but higher hypo-manic-like symptoms (p’s<0.002). Genetic loading for MDD and SCZ were associated with less daylight exposure in unadjusted correlational analyses (effect sizes were not meaningful). Exploratory analyses revealed age-related heterogeneity. Among 18–24-year-olds, no symptom dimensions were associated with daylight. By contrast, for the older age groups, there was a pattern of more daylight exposure and lower insomnia symptoms (p < 0.003) (except for 25–34-year-olds on free days, p = 0.019); and lower depressive symptoms with more daylight on free days, and to some extent workdays (depending on the age-group).

    Conclusions

    Exploration of the causal status of daylight in depression is warranted.

  • Constrained Canonical Correlation

  • Wayne S. DeSarbo, Robert E. Hausman, Shen Lin, Wesley Thompson
  • Journal:
    Psychometrika / Volume 47 / Issue 4 / December 1982
    Published online by Cambridge University Press:
    01 January 2025, pp. 489-516

  • This paper explores some of the problems associated with traditional canonical correlation. A response surface methodology is developed to examine the stability of the derived linear functions, where one wishes to investigate how much the coefficients can change and still be in an ɛ-neighborhood of the globally optimum canonical correlation value. In addition, a discrete (or constrained) canonical correlation method is formulated where the derived coefficients of these linear functions are constrained to be in some small set, e.g., {1, 0, −1}, to aid in the interpretation of the results. An example concerning the psychographic responses of Wharton MBA students of the University of Pennsylvania regarding driving preferences and life-style considerations is provided.

  • Impact of diagnostic stewardship on catheter-associated urinary tract infections and patient outcomes

  • Sarah E. Sansom, Audrey Goldstein, Brian D. Stein, Michael E. Schoeny, Alexandra Seguin, Ruth Kniuksta, Alexander Tomich, Mary K. Hayden, Michael Y. Lin, John Segreti
  • Journal:
    Infection Control & Hospital Epidemiology / Volume 46 / Issue 2 / February 2025
    Published online by Cambridge University Press:
    27 December 2024, pp. 165-170
    Print publication:
    February 2025
  • Background:

    Diagnostic stewardship of urine cultures from patients with indwelling urinary catheters may improve diagnostic specificity and clinical relevance of the test, but risk of patient harm is uncertain.

    Methods:

    We retrospectively evaluated the impact of a computerized clinical decision support tool to promote institutional appropriateness criteria (neutropenia, kidney transplant, recent urologic surgery, or radiologic evidence of urinary tract obstruction) for urine cultures from patients with an indwelling urinary catheter. The primary outcome was a change in catheter-associated urinary tract infection (CAUTI) rate from baseline (34 mo) to intervention period (30 mo, including a 2-mo wash-in period). We analyzed patient-level outcomes and adverse events.

    Results:

    Adjusted CAUTI rate decreased from 1.203 to 0.75 per 1,000 catheter-days (P = 0.52). Of 598 patients triggering decision support, 284 (47.5%) urine cultures were collected in agreement with institutional criteria and 314 (52.5%) were averted. Of 314 patients whose urine cultures were averted, 2 had a subsequent urine culture within 7 days that resulted in a change in antimicrobial therapy and 2 had diagnosis of bacteremia with suspected urinary source, but there were no delays in effective treatment.

    Conclusion:

    A diagnostic stewardship intervention was associated with an approximately 50% decrease in urine culture testing for inpatients with a urinary catheter. However, the overall CAUTI rate did not decrease significantly. Adverse outcomes were rare and minor among patients who had a urine culture averted. Diagnostic stewardship may be safe and effective as part of a multimodal program to reduce unnecessary urine cultures among patients with indwelling urinary catheters.

  • An equity indicator for assessing mental healthcare access: a national population case study

  • S. Dawadi, F. Shawyer, E. Callander, S. Patten, B. Johnson, S. Rosenberg, V. Lakra, E. Lin, H. Teede, G. Meadows, J. Enticott
  • Journal:
    Epidemiology and Psychiatric Sciences / Volume 33 / 2024
    Published online by Cambridge University Press:
    29 November 2024, e70
    • Article
      • You have access
      • Open access
    • PDF
    • HTML
    • Export citation
  • Aims

    Achieving equitable healthcare access is a global challenge. Improving whole-population mental health and reducing the global burden of mental disorders is a key recommendation of the 2018 Lancet Global Mental Health Commission, which proposed monitoring national indicators, including the proportion of people with severe mental disorders who are service-users. This study aims to derive an equity indicator from national datasets integrating need, service utilisation and socioeconomic status, and demonstrate its utility in identifying gaps in mental health service use amongst those with the greatest need, thereby guiding equitable healthcare delivery.

    Methods

    We present a case study of a universal health insurance scheme (Medicare) in Australia. We developed the equity indicator using three national datasets. Geographic areas were linked to an area-based socioeconomic deprivation quintile (Census 2016). Per geographic area, we estimated the number with a mental healthcare need using scores ≥30 on the Kessler-10 (Australian National Health Surveys 2015 and 2018), and obtained the number of services used, defined as mental health-related contacts with general practitioners and mental health professionals (Medicare administrative data 2015–2019). We divided the number of services by the population with an estimated mental healthcare need and averaged these use-rates across each socioeconomic deprivation quintile. The equity indicator is the ratio of the use-rates in the least versus most deprived quintiles.

    Results

    Those estimated to have the greatest need for mental healthcare in 2019 ranged between 8.2% in the most disadvantaged area quintile (Q1) and 2.4% in the least (Q5), corresponding to a proportional increase of 27.7% in Q1 and 19.5% in Q5 since 2015. Equity-indicator-adjusted service rates of 4.2 (3.8–4.6) and 23.9 (22.4–25.4) showed that individuals with the highest need for care residing in Q1 areas received a stark 6 times fewer services compared to their Q5 counterparts, producing an equity indicator of 6.

    Conclusions

    As the global prevalence of common mental disorders may be increasing, it is crucial to calculate robust indicators evaluating the equity of mental health service use. In this Australian case study, we developed an equity indicator enabling the direct comparison of geographic areas with different need profiles. The results revealed striking inequities that persisted despite publicly-funded universal healthcare, recent service reforms and being a high-income country. This study demonstrates the importance and feasibility of generating such an indicator to inform and empower communities, healthcare providers and policymakers to pursue equitable service provision.

  • 13 - LDPC Codes Based on Combinatorial Designs, Graphs, and Superposition

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 625-671

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 11 - Finite-Geometry LDPC Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 511-578

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 4 - Convolutional Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 166-234

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 5 - Low-Density Parity-Check Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 235-280

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 7 - Turbo Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 322-364

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 10 - Polar Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 454-510

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 8 - Ensemble Enumerators for Turbo and LDPC Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 365-409

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 3 - Linear Block Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 93-165

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

  • 6 - Computer-Based Design of LDPC Codes

  • William E. Ryan, Zeta Associates, Shu Lin, University of California, Davis, Stephen G. Wilson, University of Virginia
  • Book:
    Channel Codes
    Published online:
    06 March 2025
    Print publication:
    21 November 2024, pp 281-321

  • Summary

    Channel coding lies at the heart of digital communication and data storage. Fully updated to include current innovations in the field, including a new chapter on polar codes, this detailed introduction describes the core theory of channel coding, decoding algorithms, implementation details, and performance analyses. This edition includes over 50 new end-of-chapter problems to challenge students and numerous new figures and examples throughout.

    The authors emphasize a practical approach and clearly present information on modern channel codes, including polar, turbo, and low-density parity-check (LDPC) codes, as well as detailed coverage of BCH codes, Reed–Solomon codes, convolutional codes, finite geometry codes, and product codes for error correction, providing a one-stop resource for both classical and modern coding techniques.

    Assuming no prior knowledge in the field of channel coding, the opening chapters begin with basic theory to introduce newcomers to the subject. Later chapters then begin with classical codes, continue with modern codes, and extend to advanced topics such as code ensemble performance analyses and algebraic LDPC code design.

    • 300 varied and stimulating end-of-chapter problems test and enhance learning, making this an essential resource for students and practitioners alike.

    • Provides a one-stop resource for both classical and modern coding techniques.

    • Starts with the basic theory before moving on to advanced topics, making it perfect for newcomers to the field of channel coding.

    • 180 worked examples guide students through the practical application of the theory.

Page 1 of 18