Embedding metadata in images at time of capture using physical Quick Response (QR) codes

Quick response (QR) codes are usually scanned in different environments, so they must be robust to variations in illumination, scale, coverage, and camera angles. Aesthetic QR codes improve the visual quality, but subtle changes in their appearance may cause scanning failure. In this article, a new method to generate scanning-robust aesthetic QR codes is proposed, which is based on a module-based scanning probability estimation model that can effectively balance the tradeoff between visual quality and scanning robustness. Our method locally adjusts the luminance of each module by estimating the probability of successful sampling. The approach adopts the hierarchical, coarse-to-fine strategy to enhance the visual quality of aesthetic QR codes, which sequentially generate the following three codes: a binary aesthetic QR code, a grayscale aesthetic QR code, and the final color aesthetic QR code. Our approach also can be used to create QR codes with different visual styles by adjusting some initialization parameters. User surveys and decoding experiments were adopted for evaluating our method compared with state-of-the-art algorithms, which indicates that the proposed approach has excellent performance in terms of both visual quality and scanning robustness.

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Barcode based localization system in indoor environment

Geoinformatics FCE CTU ◽

10.14311/gi.13.4 ◽

2014 ◽

Vol 13 ◽

pp. 31-36

Author(s):

Ľubica Ilkovičová ◽

Ján Erdélyi ◽

Alojz Kopáčik

Keyword(s):

Indoor Environment ◽

Operating Principle ◽

Quick Response ◽

Qr Codes ◽

Localization System ◽

Accurate Localization ◽

Intelligent Buildings

Nowadays, in the era of intelligent buildings, there is a need to create indoornavigation systems, what is steadily a challenge. QR (Quick Response) codesprovide accurate localization also in indoor environment, where other navigationtechniques (e.g. GPS) are not available. The paper deals with the issues of posi-tioning using QR codes, solved at the Department of Surveying, Faculty of CivilEngineering SUT in Bratislava. Operating principle of QR codes, description ofthe application for positioning in indoor environment based on OS Android forsmartphones are described.

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Implementation for Quick Response Code

International Journal of Scientific Research in Science and Technology ◽

10.32628/ijsrst196642 ◽

2019 ◽

pp. 249-252

Author(s):

K. Ravikumar ◽

R. Geetha

Keyword(s):

Mobile Devices ◽

Mobile Phones ◽

Teaching And Learning ◽

Qr Code ◽

Quick Response ◽

Qr Codes ◽

Response Code ◽

Quick Response Code ◽

The People ◽

Identity Card

Quick Response (QR) codes are versatile. a chunk of long trilingual text, a connected URL, an automatic SMS message, an identity card or simply regarding any data is embedded into the two-dimensional barcode. as well as moderate equipped mobile devices, QR Codes will connect the users to the data quickly and simply. The operations to retrieve or store QR codes are unbelievably easy and fast, and with mobile devices, build them the best academic tools for teaching and learning. QR codes are all over and most of the people have mobile phones equipped with QR code readers. though QR codes existed for over fifteen years, there arent such a lot of analysis applications during this space.

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Animated Two-Dimensional Barcode Generation Using Optimization Algorithms – Redesign of Formulation, Operator, and Quality Evaluation

Journal of Advanced Computational Intelligence and Intelligent Informatics ◽

10.20965/jaciii.2009.p0245 ◽

2009 ◽

Vol 13 (3) ◽

pp. 245-254 ◽

Cited By ~ 6

Author(s):

Satoshi Ono ◽

◽

Kensuke Morinaga ◽

Shigeru Nakayama

Keyword(s):

Code Generation ◽

Optimization Problem ◽

Quality Evaluation ◽

Qr Code ◽

Two Dimensional ◽

Quick Response ◽

Qr Codes ◽

Running Head ◽

Generation Problem ◽

Font Color

To improve on our previously proposed but problem-plagued innovation for generating animated and illustrated Quick Response (QR) codes, this paper proposes a method which formulates the animated QR code generation problem as an optimization problem rather than as a set of still QR code decoration problems. The proposed method also uses optimization operators designed for this problem and quality evaluation to maintain natural, smooth movement. Experiments demonstrate that the proposed method can generate animated QR codes involve a maximum of eight illustrations moving inside the code which maintaining decoding feasibility and smooth illustration movement.Erratum Due to a wrong manipulation during the correction of the proofs of the above paper, the running head title (short title) was incorrect. The correct running head title should have read as "Animated Two–Dimensional Barcode Generation."

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Use of quick response (QR) codes to achieve timely feedback in clinical simulation settings

BMJ Simulation and Technology Enhanced Learning ◽

10.1136/bmjstel-2018-000426 ◽

2019 ◽

Vol 6 (3) ◽

pp. 172-174

Author(s):

Jemina Oremeyi Onimowo ◽

Gary Knowles ◽

Gemma Wrighton ◽

Manisha Shah

Keyword(s):

Response Rate ◽

Quick Response ◽

Qr Codes ◽

Clinical Simulation ◽

Timely Feedback ◽

Maximum Benefit ◽

Simulation Based ◽

Fourth Year Medical Students ◽

Electronic Method ◽

Made In

For clinical simulation to be of maximum benefit, obtaining timely feedback from participants is vital in ensuring suitable improvements are made in the content and delivery of teaching in this setting. This report reviews the literature and describes the use of quick response (QR) codes instead of paper feedback forms following simulation-based learning sessions for fourth-year medical students. This newly implemented electronic method of collecting feedback has resulted in an increase in feedback response rate, reduction in administrative workload and a reduced carbon footprint. We also discuss other QR code-based innovations currently being implemented in this setting.

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46. QUICK RESPONSE (QR) CODES ARE A MORE EFFECTIVE MEANS OF ELICITING FEEDBACK FROM PATIENTS AND FAMILIES

Academic Pediatrics ◽

10.1016/j.acap.2019.05.060 ◽

2019 ◽

Vol 19 (6) ◽

pp. e22

Author(s):

Jennifer Fishbein ◽

Kimberly Lau ◽

Stephen Barone

Keyword(s):

Effective Means ◽

Quick Response ◽

Qr Codes

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XOR-ed visual secret sharing scheme with robust and meaningful shadows based on QR codes

Multimedia Tools and Applications ◽

10.1007/s11042-019-08351-0 ◽

2019 ◽

Vol 79 (9-10) ◽

pp. 5719-5741 ◽

Cited By ~ 1

Author(s):

Longdan Tan ◽

Yuliang Lu ◽

Xuehu Yan ◽

Lintao Liu ◽

Xuan Zhou

Keyword(s):

Error Correction ◽

Secret Sharing ◽

Qr Code ◽

Quick Response ◽

Salt And Pepper Noise ◽

Visual Secret Sharing ◽

Qr Codes ◽

Secret Image ◽

Sharing Scheme ◽

Salt And Pepper

AbstractQuick response (QR) codes are becoming increasingly popular in various areas of life due to the advantages of the error correction capacity, the ability to be scanned quickly and the capacity to contain meaningful content. The distribution of dark and light modules of a QR code looks random, but the content of a code can be decoded by a standard QR reader. Thus, a QR code is often used in combination with visual secret sharing (VSS) to generate meaningful shadows. There may be some losses in the process of distribution and preservation of the shadows. To recover secret images with high quality, it is necessary to consider the scheme’s robustness. However, few studies examine robustness of VSS combined with QR codes. In this paper, we propose a robust (k, n)-threshold XOR-ed VSS (XVSS) scheme based on a QR code with the error correction ability. Compared with OR-ed VSS (OVSS), XVSS can recover the secret image losslessly, and the amount of computation needed is low. Since the standard QR encoder does not check if the padding codewords are correct during the encoding phase, we replace padding codewords by initial shadows shared from the secret image using XVSS to generate QR code shadows. As a result, the shadows can be decoded normally, and their error correction abilities are preserved. Once all the shadows have been collected, the secret image can be recovered losslessly. More importantly, if some conventional image attacks, including rotation, JPEG compression, Gaussian noise, salt-and-pepper noise, cropping, resizing, and even the addition of camera and screen noises are performed on the shadows, the secret image can still be recovered. The experimental results and comparisons demonstrate the effectiveness of our scheme.

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Quick Response (QR) Codes for Surgical Safety, Is it Ready for Prime Time? Results from a Prospective Pilot Study

Journal of Surgical Research ◽

10.1016/j.jss.2012.10.366 ◽

2013 ◽

Vol 179 (2) ◽

pp. 206

Author(s):

J.L. Dixon ◽

W.R. Smythe ◽

D.C. Jupiter ◽

H.T. Papaconstantinou

Keyword(s):

Pilot Study ◽

Prime Time ◽

Quick Response ◽

Qr Codes ◽

Surgical Safety ◽

Prospective Pilot Study

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EXPERIMENTOS GRÁFICO-VISUAIS POR MEIO DE FUNÇÕES E QR CODES: Uma interaçao entre alunos de um curso de administração

Matemática e Ciência: construção, conhecimento e criatividade ◽

10.5752/p.2674-9416.2019v2n1p20-38 ◽

2019 ◽

Vol 2 (1) ◽

pp. 20-38

Author(s):

Fernando Rocha Pinto

Keyword(s):

Quick Response ◽

Qr Codes

Este artigo descreve um trabalho que advém de uma experiência de caráter interdisciplinar desenvolvida em um ambiente informatizado, com a participação de alunos iniciantes (1º período) e do ciclo profissional (7º período) do curso superior de Administração da Faculdade SENAC Minas. O objetivo central foi discutir sob uma perspectiva interdisciplinar, o conceito matemático de Função e sua utilização na criação de desenhos digitais, bem como a codificação dos trabalhos por meio dos conhecidos QR Codes (Quick Response Codes, ou ainda, Códigos de Resposta Rápida). Esses códigos são amplamente utilizados nas empresas e já se fazem bastante presentes no Gerenciamento da Cadeia de Suprimentos, na área da Produção. A metodologia utilizada, que se baseou no Construcionismo de Pappert, previa cinco etapas: 1ª) três aulas no Laboratório de Informática, sendo uma aula para cada turma de alunos e uma aula com a participação de ambas as turmas de alunos, em sentido colaborativo; 2ª) criação de desenhos digitais a partir de funções matemáticas usando o software Graphmatica; 3ª) hospedagem dos desenhos no site https://photos.google.com; 4ª) criação de QR Codes por meio dos links dos desenhos no site https://br.qr-code-generator.com e; 5ª) exposição dos QR Codes no ambiente da faculdade. No momento da aula em conjunto, ocorreu uma troca de informações bastante proveitosa entre as duas turmas, o que fez com que os alunos do ciclo profissional se tornassem instrutores dos alunos iniciantes, informando sobre a utilização dos QR Codes na área de Produção em uma empresa. Assim, a partir de um aplicativo disponível para celulares, capaz de ler as imagens quadradas dos QR Codes, cada aluno pôde visitar os endereços eletrônicos que hospedavam os desenhos digitais de todos os participantes desse experimento. Todos os códigos foram impressos em papel fotográfico e expostos nos corredores da faculdade, ficando disponíveis para visitação por parte da comunidade acadêmica, o que gerou muita curiosidade das pessoas sobre os significados daqueles desenhos. Dessa maneira, as interseções entre a Matemática, a Arte e a área da Administração foram discutidas e analisadas pelos discentes, e isso lhes auxiliou no entendimento de que uma empresa pode ser analisada por meio de uma construção matemática de significados de conteúdos que estão presentes em disciplinas do curso superior de Administração, sob um ponto de vista interdisciplinar.Palavras-chave: Educação Matemática. Visualização. Desenhos Digitais. Gerenciamento da Cadeia de Suprimentos. QR Codes.

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Annotation of the medical images using quick response codes

Computer Science and Information Systems ◽

10.2298/csis151217044k ◽

2017 ◽

Vol 14 (1) ◽

pp. 175-196 ◽

Cited By ~ 3

Author(s):

Girūta Kazakevicūtė-Januskevicienė ◽

Andrius Usinskas ◽

Eugenijus Januskevicius ◽

Jurgita Usinskienė ◽

Simona Letautienė

Keyword(s):

Average Length ◽

Two Dimensional ◽

Quick Response ◽

Jpeg 2000 ◽

Qr Codes ◽

Information Preservation ◽

Industrial Grade ◽

On Line ◽

Information Detection ◽

Acceptable Image Quality

The article proposes a novel annotating method of sufficient capacity and intended not only on-line but for off-line using for information preservation all advantages of two-dimensional barcodes. The semantic annotations are embedded directly into the reasonably chosen area of the image and bound by spatial identifiers with corresponding regions. The embedding method deals with the different quality requirements of the regions. Two-dimensional QR codes are used as the physical carrier of the annotation, providing the industrial grade for information detection, resilience and error correction capabilities. The annotation is distributed in a series of QR codes for efficient use of the available space. The results reveal that the spatial domain based technique is faster and has higher data embedding capacity than JPEG 2000 based. The amount of embedded information preserving the acceptable image quality in both proposed embedding cases is higher the average length of the presented original descriptions.

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