Marco Schreyer

Marco Schreyer

Last Name

Schreyer

First name

Marco

Email

marco.schreyer@unisg.ch

ORCID

0009-0001-3800-2226

Phone

+41 71 224 79 13

Homepage

https://gitihubi.github.io

Google Scholar

https://scholar.google.com/citations?user=O6V5YkEAAAAJ

Now showing 1 - 10 of 18

Artificial Intelligence in Internal Audit as a Contribution to Effective Governance - Deep-learning enabled Detection of Anomalies in Financial Accounting Data

(EXPERTsuisse, 2022-01-07)
Schreyer, Marco
;
Baumgartner, Marcel
;
Ruud, Flemming
;
Borth, Damian

Type: journal article

Journal: Expert Focus

Volume: Special: Internal Audit

Issue: 01

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/109092
Künstliche Intelligenz im Internal Audit als Beitrag zur Effektiven Governance - Deep-Learning basierte Detektion von Buchungsanomalien in der Revisionspraxis

(EXPERTsuisse, 2022-01-07)
Schreyer, Marco
;
Baumgartner, Marcel
;
Ruud, Flemming
;
Borth, Damian

Type: journal article

Journal: Expert Focus

Volume: Special: Interne Revision

Issue: 01

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/109093
Artificial Intelligence Enabled Audit Sampling - Learning to draw representative and interpretable audit samples from large-scale journal entry data

(EXPERTsuisse, 2022-03-07)
Schreyer, Marco
;
Gierbl, Anita Stefanie
;
Ruud, Flemming
;
Borth, Damian

Type: journal article

Journal: Expert Focus

Issue: 04

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/108891
Stichprobenauswahl durch die Anwendung von Künstlicher Intelligenz - Lernen repräsentativer Stichproben aus Journalbuchungen in der Prüfungspraxis

(EXPERTsuisse, 2022-02-07)
Schreyer, Marco
;
Gierbl, Anita Stefanie
;
Ruud, Flemming
;
Borth, Damian

Type: journal article

Journal: Expert Focus

Issue: 02

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/109010
Deep Learning für die Wirtschaftsprüfung - Eine Darstellung von Theorie, Funktionsweise und Anwendungsmöglichkeiten

(C.H. Beck Vahlen Verlag, 2021-07-28)
Gierbl, Anita Stefanie
;
Schreyer, Marco
;
Borth, Damian
;
Leibfried, Peter

Type: journal article

Journal: Zeitschrift für Internationale Rechnungslegung (IRZ)

Issue: 7/8

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/110189
Künstliche Intelligenz in der Prüfungspraxis - Eine Bestandsaufnahme aktueller Einsatzmöglichkeiten und Herausforderungen

(Expertsuisse, 2020-09-01)
Gierbl, Anita Stefanie
;
Schreyer, Marco
;
Leibfried, Peter
;
Borth, Damian

Type: journal article

Journal: Expert Focus

Volume: 2020

Issue: 09

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/111804
Künstliche Intelligenz in der Wirtschaftsprüfung - Identifikation ungewöhnlicher Buchungen in der Finanzbuchhaltung

(IDW Verlag, 2018-11-01)
Schreyer, Marco
;
Sattarov, Timur
;
Borth, Damian
;
Dengel, Andreas
;
Reimer, Bernd

Type: journal article

Journal: WPg - Die Wirtschaftsprüfung

Volume: 72

Issue: 11

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/99891
FinDiff: Diffusion Models for Financial Tabular Data Generation

(Association for Computing Machinery (ACM), 2023)
Timur Sattarov
;
Marco Schreyer
;
Damian Borth
;
Timur Sattarov

The sharing of microdata, such as fund holdings and derivative instruments, by regulatory institutions presents a unique challenge due to strict data confidentiality and privacy regulations. These challenges often hinder the ability of both academics and practitioners to conduct collaborative research effectively. The emergence of generative models, particularly diffusion models, capable of synthesizing data mimicking the underlying distributions of real-world data presents a compelling solution. This work introduces 'FinDiff', a diffusion model designed to generate real-world financial tabular data for a variety of regulatory downstream tasks, for example economic scenario modeling, stress tests, and fraud detection. The model uses embedding encodings to model mixed modality financial data, comprising both categorical and numeric attributes. The performance of FinDiff in generating synthetic tabular financial data is evaluated against state-of-the-art baseline models using three real-world financial datasets (including two publicly available datasets and one proprietary dataset). Empirical results demonstrate that FinDiff excels in generating synthetic tabular financial data with high fidelity, privacy, and utility.

Type: conference paper

Journal: 4th ACM International Conference on AI in Finance

URL: https://dl.acm.org/doi/abs/10.1145/3604237.3626876

DOI: 10.1145/3604237.3626876

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/118776
Continual Learning for Unsupervised Anomaly Detection in Continuous Auditing of Financial Accounting Data

(Association for the Advancement of Artificial Intelligence (AAAI), 2022-02-28)
Hemati, Hamed
;
Schreyer, Marco
;
Borth, Damian

International audit standards require the direct assessment of a financial statement’s underlying accounting journal entries. Driven by advances in artificial intelligence, deep-learning inspired audit techniques emerged to examine vast quantities of journal entry data. However, in regular audits, most of the proposed methods are applied to learn from a comparably stationary journal entry population, e.g., of a financial quarter or year. Ignoring situations where audit relevant distribution changes are not evident in the training data or become incrementally available over time. In contrast, in continuous auditing, deep-learning models are continually trained on a stream of recorded journal entries, e.g., of the last hour. Resulting in situations where previous knowledge interferes with new information and will be entirely overwritten. This work proposes a continual anomaly detection framework to overcome both challenges and designed to learn from a stream of journal entry data experiences. The framework is evaluated based on deliberately designed audit scenarios and two real-world datasets. Our experimental results provide initial evidence that such a learning scheme offers the ability to reduce false-positive alerts and false-negative decisions.

Type: conference paper

URL: https://sites.google.com/view/aaaiwfs2022

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/108930
Federated Continual Learning to Detect Accounting Anomalies in Financial Auditing

( 2022-12-02)
Schreyer, Marco
;
Hemati, Hamed
;
Borth, Damian
;
Vasarhelyi, Miklos A.

The International Standards on Auditing (ISA) require auditors to collect reasonable assurance that financial statements are free of material misstatement. At the same time, a central objective of Continuous Assurance is the real-time assessment of digital accounting journal entries. Recently, driven by the advances in artificial intelligence, Deep Learning techniques have emerged in financial auditing to examine vast quantities of accounting data. However, learning highly adaptive audit models in decentralized and dynamic settings remains challenging. It requires the study of data distribution shifts over multiple clients and time periods. In this work, we propose a Federated Continual Learning framework enabling auditors to learn audit models from decentral clients continuously. We evaluate the framework's ability to detect accounting anomalies in common scenarios of organizational activity. Our empirical results, using real-world datasets and combined federated-continual learning strategies, demonstrate the learned model's ability to detect anomalies in audit settings of data distribution shifts.

Type: conference paper

URI: https://www.alexandria.unisg.ch/handle/20.500.14171/108007

Marco Schreyer

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