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Journal articles on the topic 'Workflow digital'

Author: Grafiati
Published: 11 September 2021
Last updated: 27 April 2022

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1

Dinçer, Sevde Gülizar, and Tuğrul Yazar. "A comparative analysis of the digital re-constructions of muqarnas systems: The case study of Sultanhanı muqarnas in Central Anatolia." International Journal of Architectural Computing 19, no. 3 (February 11, 2021): 360–85. http://dx.doi.org/10.1177/1478077121992487.

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This paper presents a comparative case study on the digital modeling workflows of a particular muqarnas system. After the literature review and the definition of the context, several digital modeling workflows were described as element-based, tessellation-based and block-based workflows by using computer-aided design and parametric modeling software. As the case study of this research, these workflows were tested on a muqarnas design located at the Sultanhanı Caravanserai in Central Anatolia. Then, workflows were compared according to three qualities: analytical, generative, and performative. The outcomes of element-based workflow has more analytical solutions for the study, where tessellation-based workflow has more generative potential and block-based workflow is more performative.
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2

Stromeyer, Sofia, Daniel Wiedemeier, Albert Mehl, and Andreas Ender. "Time Efficiency of Digitally and Conventionally Produced Single-Unit Restorations." Dentistry Journal 9, no. 6 (June 1, 2021): 62. http://dx.doi.org/10.3390/dj9060062.

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The purpose of this in vitro study was to compare the time efficiency of digital chairside and labside workflows with a conventional workflow for single-unit restorations. The time efficiency in this specific sense was defined as the time, which has to be spent in a dental office by a dental professional performing the relevant steps. A model with interchangeable teeth on position 36 was created. These teeth were differently prepared, responding to several clinical situations to perform single-unit restorations. Different manufacturing techniques were used: For the digital workflows, CEREC Omnicam (CER) and Trios 3 (TN/TI) were used. The conventional workflow, using a dual-arch tray impression technique, served as the control group. For the labside workflow (_L) and the conventional impression procedure (CO), the time necessary for the impressions and temporary restorations was recorded and served as operating time. The chairside workflow time was divided by the time for the entire workflow (_C) including scan, design, milling and finishing the milled restoration, and in the actual working time (_CW) leaving out the chairside milling of the restoration. Labside workflow time ranged from 9 min 27 s (CER_L) to 12 min 41 s (TI_L). Entire chairside time ranged from 43 min 35 s (CER_C) to 58 min 43 s (TI_C). Pure chairside working time ranged from 15 min 21 s (CER_CW) to 23 min 17 s (TI_CW). Conventional workflow time was 10 min 39 s (CO) on average. The digital labside workflow and the conventional workflow require a similar amount of time. The digital chairside workflow is more time consuming.
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IWAMOTO, Takashi. "Adobe's Digital Publishing Workflow." Joho Chishiki Gakkaishi 21, no. 4 (2011): 452–55. http://dx.doi.org/10.2964/jsik.21-452.

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4

Jubhari, Eri Hendra, and Priscilia Yoviani Sole. "Novel fully digital workflow for removable partial denture fabrication." Makassar Dental Journal 11, no. 1 (April 1, 2022): 95–100. http://dx.doi.org/10.35856/mdj.v11i1.518.

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Background: Digital dentistry technology based on computer-aided design and computer-aided manufacturing (CAD/CAM) has been widely applied in the field of prosthodontics, ranging from digital techniques for impression processes, jaw registration, artificial tooth arrangement and base design, along with base and denture fabrication. However, conventional analog workflows are still used and digital workflows have not completely replaced analog workflows. Purpose: Knowing the latest complete digi-tal workflow in the manufacture of removable partial dentures (RPD). Methods: Full-arch digital impressions of the partially edentulous jaw were made with an intraoral scanner or by conventional methods. The denture framework, artificial teeth, and denture base were designed by commercially available CAD software. Each of the denture components including connectors, clasps, and artificial teeth and the denture bases were fabricated separately by the CAM machine, and then assembled using an adhesive material. Conclusion: RPDs were successfully fabricated using a fully digital workflow and no clinical complications were reported.
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Sobczak, Barbara, and Piotr Majewski. "An Integrated Fully Digital Prosthetic Workflow for the Immediate Full-Arch Restoration of Edentulous Patients—A Case Report." International Journal of Environmental Research and Public Health 19, no. 7 (March 31, 2022): 4126. http://dx.doi.org/10.3390/ijerph19074126.

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Digital prosthetic workflows may significantly increase the efficiency and predictability of the immediate rehabilitation of implant-supported fixed complete dentures. Advanced digital prosthetic workflows require exact and detailed virtual planning models. The direct generation of these models via direct digital impressions remains technique sensitive and demanding. This report illustrates an advanced digital workflow for accurate and efficient immediate full-arch restoration, with an aesthetically and anatomically adapted natural tooth-like prosthesis. The workflow application to fully edentulous arches, and arches with residual failing dentition, is presented. A key characteristic was efficiently integrating and interlinking the prosthetic and surgical workflows via denture replica surgical guides as landmarks for scan registration. This approach allowed for accurate implant placement and efficient and detailed anatomy-based chairside prosthetic planning, and for the manufacturing of the provisional and final restorations under detailed consideration of implant restoration, and the patient’s macro-aesthetic and soft tissue anatomy.
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Patzelt, Sebastian Berthold Maximilian, Marei Krügel, Christian Wesemann, Stefano Pieralli, Julian Nold, Benedikt Christopher Spies, Kirstin Vach, and Ralf-Joachim Kohal. "In Vitro Time Efficiency, Fit, and Wear of Conventionally- versus Digitally-Fabricated Occlusal Splints." Materials 15, no. 3 (January 30, 2022): 1085. http://dx.doi.org/10.3390/ma15031085.

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The purpose of the study was to compare conventional to digital workflows of occlusal splint production regarding time efficiency, overall fit, and wear. Fifteen Michigan splints were fabricated with a conventional and digital method. The duration for the dentist’s and the dental technician’s workload was recorded. Subsequently, the overall fit was examined with a four-level score (1–4). Paired t-tests were used to compare the time results for the conventional and digital workflows and the sign test to compare the overall fit. The mean time (16 min 58 s) for computerized optical impressions was longer than for conventional impressions (6 min 59 s; p = 0.0001). However, the dental technician needed significantly less mean time for the digital splint production (47 min 52 s) than for the conventional (163 min 32 s; p = 0.001). The overall fit of the digitally-fabricated splints was significantly better compared to the conventionally-fabricated splints (p = 0.002). There was no impact of the different materials used in the conventional and digital workflow on the wear (p = 0.26). The results suggest that the digital workflow for the production of occlusal splints is more time efficient and leads to a better fit than the conventional workflow.
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7

Zuley, Margarita, and Jay R. Parikh. "Full-Field Digital Mammography Workflow." Seminars in Breast Disease 9, no. 2 (June 2006): 70–74. http://dx.doi.org/10.1053/j.sembd.2006.12.005.

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8

Ludlow, Mark, and Walter Renne. "Digital Workflow in Implant Dentistry." Current Oral Health Reports 4, no. 2 (April 21, 2017): 131–35. http://dx.doi.org/10.1007/s40496-017-0134-2.

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9

Chow, K. C. "Digital workflow in orthognathic surgery." International Journal of Oral and Maxillofacial Surgery 46 (March 2017): 12–13. http://dx.doi.org/10.1016/j.ijom.2017.02.046.

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10

Hinz, Sebastian, Daniel Ellmann, Christian Wegner, Wolfgang Bömicke, and Tobias Bensel. "The Digital Abutment Check: An Improvement of the Fully Digital Workflow." Case Reports in Dentistry 2020 (October 24, 2020): 1–14. http://dx.doi.org/10.1155/2020/8831862.

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By using modern digitalization techniques, an existing denture can be digitized and aid the provision of a new implant-supported denture according to a fully digital workflow. This includes fully navigated implant surgery and results in an immediately provided prosthetic restoration. However, even with the current digital workflow, it is challenging to achieve a definitive prosthetic restoration in a single treatment session. In order to achieve a definitive denture in as few treatment sessions as possible, we have implemented the digital abutment test. This test modified the existing data set and determined the final restoration. In the present case, the preexisting maxillary removable complete denture was converted into a fixed immediate restoration using the fully digital workflow. The workflow is divided into two treatment phases, each with three treatment sessions, where part of the second phase involves an innovative digital abutment check. The illustrated case shows an effective use of current digital possibilities. Special attention was also paid to a minimally invasive course of therapy.
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Fraggetta, Filippo, Vincenzo L’Imperio, David Ameisen, Rita Carvalho, Sabine Leh, Tim-Rasmus Kiehl, Mircea Serbanescu, et al. "Best Practice Recommendations for the Implementation of a Digital Pathology Workflow in the Anatomic Pathology Laboratory by the European Society of Digital and Integrative Pathology (ESDIP)." Diagnostics 11, no. 11 (November 22, 2021): 2167. http://dx.doi.org/10.3390/diagnostics11112167.

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The interest in implementing digital pathology (DP) workflows to obtain whole slide image (WSI) files for diagnostic purposes has increased in the last few years. The increasing performance of technical components and the Food and Drug Administration (FDA) approval of systems for primary diagnosis led to increased interest in applying DP workflows. However, despite this revolutionary transition, real world data suggest that a fully digital approach to the histological workflow has been implemented in only a minority of pathology laboratories. The objective of this study is to facilitate the implementation of DP workflows in pathology laboratories, helping those involved in this process of transformation to identify: (a) the scope and the boundaries of the DP transformation; (b) how to introduce automation to reduce errors; (c) how to introduce appropriate quality control to guarantee the safety of the process and (d) the hardware and software needed to implement DP systems inside the pathology laboratory. The European Society of Digital and Integrative Pathology (ESDIP) provided consensus-based recommendations developed through discussion among members of the Scientific Committee. The recommendations are thus based on the expertise of the panel members and on the agreement obtained after virtual meetings. Prior to publication, the recommendations were reviewed by members of the ESDIP Board. The recommendations comprehensively cover every step of the implementation of the digital workflow in the anatomic pathology department, emphasizing the importance of interoperability, automation and tracking of the entire process before the introduction of a scanning facility. Compared to the available national and international guidelines, the present document represents a practical, handy reference for the correct implementation of the digital workflow in Europe.
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Ray, Jarom J., C. Michelle Giacomino, James A. Wealleans, and Ryan R. Sheridan. "Targeted Endodontic Microsurgery: Digital Workflow Options." Journal of Endodontics 46, no. 6 (June 2020): 863–71. http://dx.doi.org/10.1016/j.joen.2020.02.006.

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13

Mackenzie, J. "Digital Imaging Workflow in Modern Microscopy." Microscopy and Microanalysis 10, S02 (August 2004): 1256–57. http://dx.doi.org/10.1017/s1431927604887798.

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14

Noteboom, Remko. "Capturing workflow in the digital age." Journal of Digital Asset Management 6, no. 4 (August 2010): 210–15. http://dx.doi.org/10.1057/dam.2010.22.

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15

Valente, Riccardo. "Digital workflow to improve osteoarchaeological documentation." Digital Applications in Archaeology and Cultural Heritage 13 (June 2019): e00097. http://dx.doi.org/10.1016/j.daach.2019.e00097.

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16

da Silva Salomão, Gustavo Vargas, Eliseo Pablo Chun, Renato dos Santos Panegaci, and Fernando Toledo Santos. "Analysis of Digital Workflow in Implantology." Case Reports in Dentistry 2021 (February 15, 2021): 1–7. http://dx.doi.org/10.1155/2021/6655908.

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Digital workflow is increasingly accessible in daily dental practice. It has several benefits in implantology, such as the possibility of precise planning, which results in faster and safer surgery and, consequently, reduced prosthetic complications. There are also disadvantages that must be taken into consideration for successful treatment, such as deviations between the planned and placed implant position and intraoral scanning inaccuracies. We report a clinical case in implantology in which digital workflow was used throughout the process, pointing out its facilities and complications in the daily practice of dental surgeons. The patient had grade II mobility and external root resorption of tooth 11. After virtual planning, a surgical guide was fabricated by a CAD/CAM system, with immediate placement of a dental implant using the guided surgery technique. At the end of the osseointegration period, intraoral scanning was performed for fabrication of the final prosthesis also by a CAD/CAM system. After placement, the patient approved the aesthetic and functional results of the implant. We observed advantages such as simplification of clinical steps and safety of the proposed planning, but there were also disadvantages such as the complexity of digital tools, deviations of the placed implant, and inaccuracy in color selection. It was concluded that digital workflow is a reality that can be integrated into daily dental practice, resulting in greater safety, predictability of results, and ease of use in all clinical stages. However, it should be noted that there are still inaccuracies in digital tools and that a steep learning curve is needed in this area, which, if neglected, may lead to unsatisfactory results.
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Eloy, Catarina, João Vale, Mónica Curado, António Polónia, Sofia Campelos, Ana Caramelo, Rui Sousa, and Manuel Sobrinho-Simões. "Digital Pathology Workflow Implementation at IPATIMUP." Diagnostics 11, no. 11 (November 15, 2021): 2111. http://dx.doi.org/10.3390/diagnostics11112111.

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The advantages of the digital methodology are well known. In this paper, we provide a detailed description of the process for the digital transformation of the pathology laboratory at IPATIMUP, the major modifications that operate throughout the processing pipeline, and the advantages of its implementation. The model of digital workflow implementation at IPATIMUP demonstrates that careful planning and adoption of simple measures related to time, space, and sample management can be adopted by any pathology laboratory to achieve higher quality and easy digital transformation.
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Kent, Lee, Chris Snider, and Ben Hicks. "MIXED REALITY PROTOTYPING: SYNCHRONICITY AND ITS IMPACT ON A DESIGN WORKFLOW." Proceedings of the Design Society 1 (July 27, 2021): 2117–26. http://dx.doi.org/10.1017/pds.2021.473.

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AbstractDesign is multi-modal, and depending on the current stage in the process, progress can be facilitated through working in either the physical or virtual domain with frequent iterations commonly required between. Traditionally, prototyping workflows are sequential, although current trends such as Digital Twinning and Mixed Reality (MR) enable decreased domain transition times, reducing the cycle time. This leads towards fully integrated digital-physical prototypes, enabling work in both domains simultaneously by increasing synchronicity of select variables. This paper considers those variables involved, the sensors that measure them and their rate of synchronisation, thereby investigating the feasibility of MR workflow interventions, and exploring the benefits that may be realised. The paper identifies four components of MR implementations in prototyping and myriad methods by which domain transition may occur and uses these in context of a case study to propose four levels of workflow synchronisation. It was found achieving some high rates of synchronicity is possible, but achieving the highest levels as prescribed by digital twinning is neither feasible nor pragmatic against current MR capabilities and design prototyping workflows.
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Gintaute, Aiste, Karin Weber, Nicola U. Zitzmann, Urs Brägger, Marco Ferrari, and Tim Joda. "A Double-Blind Crossover RCT Analyzing Technical and Clinical Performance of Monolithic ZrO2 Implant Fixed Dental Prostheses (iFDP) in Three Different Digital Workflows." Journal of Clinical Medicine 10, no. 12 (June 16, 2021): 2661. http://dx.doi.org/10.3390/jcm10122661.

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This double-blind randomized controlled trial with a crossover design analyzed the technical and clinical performance of three-unit monolithic ZrO2 implant-fixed dental prostheses (iFDPs), prepared using two complete digital workflows (Test-1, Test-2) and one mixed analog–digital workflow (Control). Each of the 20 study patients received three iFDPs, resulting in 60 restorations for analysis. The quality of the restorations was assessed by analyzing laboratory cross-mounting and calculating the chairside adjustment time required during fitting. All iFDPs could be produced successfully with all three workflows. The highest cross-mounting success rate was observed for the original pairing iFDP/model of the Control group. Overall, 60% of iFDPs prepared with Test-1 workflow did not require chairside adjustment compared with 50% for Test-2 and 30% for Controls. The mean total chairside adjustment time, as the sum of interproximal, pontic, and occlusal corrections was 2.59 ± 2.51 min (Control), 2.88 ± 2.86 min (Test-1), and 3.87 ± 3.02 min (Test-2). All tested workflows were feasible for treatment with iFDPs in posterior sites on a soft tissue level type implant system. For clinical routine, it has to be considered that chairside adjustments may be necessary, at least in every second patient, independent on the workflow used.
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KALELİ, Necati, and Çağrı URAL. "What does complete digital workflow mean for dentistry?" Journal of Experimental and Clinical Medicine 38, SI-2 (May 19, 2021): 175–79. http://dx.doi.org/10.52142/omujecm.38.si.dent.16.

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The introduction of computer-aided manufacturing technologies and further developments have changed the routine workflow in dentistry, and dentists are now rapidly shifting from conventional to digital. As a result, intra-oral scanners have become a standard device in dental clinics even though they have a considerable cost. One of the important reasons of this digital transition is to ensure standardized-quality manufacturing with a shorter chair time, which is promised by complete digital workflow. So, what does complete digital workflow mean for dentistry? This review elaborately answers to this question and summarizes the stages of complete digital workflow in dental applications.
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Mangano, Francesco, and Giovanni Veronesi. "Digital versus Analog Procedures for the Prosthetic Restoration of Single Implants: A Randomized Controlled Trial with 1 Year of Follow-Up." BioMed Research International 2018 (July 18, 2018): 1–20. http://dx.doi.org/10.1155/2018/5325032.

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Aim. To compare the outcome of digital versus analog procedures for the restoration of single implants. Methods. Over a two-year period (2014-2016), all patients who had been treated in a dental center with a single implant were randomly assigned to receive either a monolithic zirconia crown, fabricated with digital workflow (test group), or a metal-ceramic crown, fabricated with analog workflow (control group). All patients were followed for 1 year after the delivery of the final crown. The outcomes were success, complications, peri-implant marginal bone loss (PIMBL), patient satisfaction, and time and cost of the treatment. Results. 50 patients (22 males, 28 females; mean age 52.6±13.4 years) were randomly assigned to one of the groups (25 per group). Both workflows showed high success (92%) and low complication rate (8%). No significant differences were found in the mean PIMBL between test (0.39±0.29mm) and control (0.54±0.32mm) groups. Patients preferred digital impressions. Taking the impression took half the time in the test group (20±5min) than in the control (50±7min) group. When calculating active working time, workflow in the test group was more time-efficient than in the control group, for provisional (70±15min versus 340±37min) and final crowns (29±9min versus 260±26min). The digital procedure presented lower costs than the analog (€277.3 versus €392.2). Conclusions. No significant clinical or radiographic differences were found between digital and analog procedures; however, the digital workflow was preferred by patients; it reduced active treatment time and costs. The present study is registered in the ISRCTN (http://www.isrctn.com/ISRCTN36259164) with number 36259164.
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Tallarico, Marco. "Computerization and Digital Workflow in Medicine: Focus on Digital Dentistry." Materials 13, no. 9 (May 8, 2020): 2172. http://dx.doi.org/10.3390/ma13092172.

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Continuously evolving technologies make dentistry one of the most advanced sectors in the field of medicine. The digital improvements in recent years have brought many advantages to clinicians and patients, including reduced working times, lower costs and increased efficiency of performance. Some of the most important digital technologies introduced in the dental filed are cone beam computer tomography (CBCT) scan, Computer Aided Design/Computer Aided Manufacturing (CAD-CAM) systems, and intraoral scanners. All of these allow faster and more accurate rehabilitations, with the opportunity of pre-simulation of the final treatment. The evolution of computer science has brought significant advantages in the medical and dental fields, making the diagnosis and execution of even complex treatments, such as implantology and bone reconstruction, possible. The digital world is trying to supplant the traditional analog workflow, and over time, with the further advance of technologies, it should tend to be the treatment of choice of our patients.
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Wang, Qin Wen. "Establish the Control Template of Data Flow Based on Prinergy Workflow." Advanced Materials Research 174 (December 2010): 155–58. http://dx.doi.org/10.4028/www.scientific.net/amr.174.155.

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Under the promoting of digital information process and computer controlling system, modern printing industry comes to a digital workflow era. Digital workflow not only changed conventional prepress and printing process but also changed the organization and transmission of conventional printing information, which brings in both opportunities and challenges to printing industries. Based on Prinergy digital workflow, the control method of prepress data was studied. According to the requirement of printing production, through theoretical analysis and experiments, with analysis of key nodes of data transferring and controlling, and parameter settings and optimization, a set of data flow control template was established, which ensures smooth and accurate transmission of printing data stream in prepress workflow. What has been achieved in this paper has theoretical and practical significance in using digital workflow to improve the printing quality.
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E.Kamalanaban, Dr, M. Gopinath, and M. Nandhu. "Workflow Signatures for Business Process." International Journal of Engineering & Technology 7, no. 3.34 (September 1, 2018): 129. http://dx.doi.org/10.14419/ijet.v7i3.34.18788.

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Workflow signatures are accustomed hold unity of information in which it supports the rational and the order of relationships like AND-join and AND-split, of advancement. Advancement signatures are Digital firm for verifying and proving of business development across some dominant needs. The signing keys are sensible to permit approvals to hold out tasks. Since the signature keys are issued on-the-fly, permission to hold out employment within a work flow will be composed and given energetic at runtime. This paper provides true advancement signature technique, rely on hierarchical unity-placed cryptography, to encounter safety measures by structure workflows. A multi-level validation of data is completed using multi signature binding on each and every message. This can produce an extremely secure and competitive strength to the system. In this paper, an option for the users to generate the key is provided and if the user loses his digital signature, it is providing annotation of recovering the digital signature. Digital signature generated based on identity based signature scheme using hierarchical information which is one of the challenging schemes. Hierarchical information and control flow is controlled by business process automations which is the key focus of this paper.
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FU, De-sheng, and Qiang WANG. "XML digital signature application in workflow system." Journal of Computer Applications 31, no. 3 (May 18, 2011): 808–11. http://dx.doi.org/10.3724/sp.j.1087.2011.00808.

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Zavanelli, Adriana Cristina, Julia Martins Burlim, and Ricardo Alexandre Zavanelli. "Workflow digital x analógico - relato de caso." Full Dentistry in Science 11, no. 42 (2020): 84–90. http://dx.doi.org/10.24077/2020;1142-8490.

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Rossi, EstherDiana, Filippo Fraggetta, Salvatore Garozzo, GianFranco Zannoni, and Liron Pantanowitz. "Routine digital pathology workflow: The Catania experience." Journal of Pathology Informatics 8, no. 1 (2017): 51. http://dx.doi.org/10.4103/jpi.jpi_58_17.

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28

Tordiglione, Lidia, Michele De Franco, and Giovanni Bosetti. "The Prosthetic Workflow in the Digital Era." International Journal of Dentistry 2016 (2016): 1–7. http://dx.doi.org/10.1155/2016/9823025.

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The purpose of this retrospective study was to clinically evaluate the benefits of adopting a full digital workflow for the implementation of fixed prosthetic restorations on natural teeth. To evaluate the effectiveness of these protocols, treatment plans were drawn up for 15 patients requiring rehabilitation of one or more natural teeth. All the dental impressions were taken using a Planmeca PlanScan® (Planmeca OY, Helsinki, Finland) intraoral scanner, which provided digital casts on which the restorations were digitally designed using Exocad® (Exocad GmbH, Germany, 2010) software and fabricated by CAM processing on 5-axis milling machines. A total of 28 single crowns were made from monolithic zirconia, 12 vestibular veneers from lithium disilicate, and 4 three-quarter vestibular veneers with palatal extension. While the restorations were applied, the authors could clinically appreciate the excellent match between the digitally produced prosthetic design and the cemented prostheses, which never required any occlusal or proximal adjustment. Out of all the restorations applied, only one exhibited premature failure and was replaced with no other complications or need for further scanning. From the clinical experience gained using a full digital workflow, the authors can confirm that these work processes enable the fabrication of clinically reliable restorations, with all the benefits that digital methods bring to the dentist, the dental laboratory, and the patient.
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May, Gerald A., David D. Deer, and Doreen Dackiewicz. "Impact of digital radiography on clinical workflow." Journal of Digital Imaging 13, S1 (May 2000): 76–78. http://dx.doi.org/10.1007/bf03167630.

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Velte, Ashlyn, and Olivia M. Wikle. "Scalable Born Digital Ingest Workflows for Limited Resources: A Case Study for First Steps in Digital Preservation." Preservation, Digital Technology & Culture 49, no. 1 (April 28, 2020): 2–13. http://dx.doi.org/10.1515/pdtc-2020-0004.

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AbstractThis article seeks to provide an example of a scalable and achievable born digital ingest workflow for cultural heritage institutions of any size, including those with limited funding. Like many small archives, the University of Idaho (U of I) Library Special Collections and Archives (SPEC) has accepted born digital material when it arrives as part of analog collections for the last 20 years. However, the Library has faced numerous challenges similar to those of other small institutions when developing workflows for born digital preservation and ingest. These include lack of funding, systems, and policies. Despite a growing number of resources that support digital preservation work, among current best practices it is difficult to find scalable workflows for institutions with limited staff and funds. By implementing accessible open-source software and prioritizing preservation tasks, U of I Library has developed a low-cost way to implement systems for digital preservation with responsibilities that can be spread out among librarians and archivists with varying technical expertise.
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De Angelis, Paolo, Paolo Francesco Manicone, Silvio De Angelis, Cristina Grippaudo, Giulio Gasparini, Margherita Giorgia Liguori, Francesca Camodeca, et al. "Patient and Operator Centered Outcomes in Implant Dentistry: Comparison between Fully Digital and Conventional Workflow for Single Crown and Three-Unit Fixed-Bridge." Materials 13, no. 12 (June 19, 2020): 2781. http://dx.doi.org/10.3390/ma13122781.

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Background: Scientific information about the effects of implant therapy following a precise workflow and patient and operators’ preferences should be considered to choose which implant treatment protocol to use, and to achieve patient’s satisfaction and functional results. The aim of this study was to analyze implant rehabilitations with a fully digital workflow and compare this approach with a conventional one. Methods: This study comprises 64 patients treated with a fully digital approach and 58 patients treated using a conventional protocol. Patient and operator centered outcomes were assessed through two visual analogue scale (VAS) questionnaires. Results: The VAS questionnaire demonstrated better results for the digital workflow concerning anxiety, convenience, taste, nausea sensation, pain and breathing difficulties (p < 0.0001). The VAS questionnaire administered to the operators showed better scores for the digital approach in relation to anxiety, convenience, difficulties of the impression procedure and the workflow (p < 0.0001). A significant reduced mean time for the digital workflow as well as a reduced number of required visits were recorded. Conclusion: The analysis of a fully digital and a conventional protocol showed better results according to patient and operators’ preferences when a fully digital approach was used.
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Heintz, Douglas, and Michael R. Gryk. "Curating Scientific Workflows for Biomolecular Nuclear Magnetic Resonance Spectroscopy." International Journal of Digital Curation 13, no. 1 (April 19, 2019): 286–93. http://dx.doi.org/10.2218/ijdc.v13i1.657.

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This paper describes our recent and ongoing efforts to enhance the curation of scientific workflows to improve reproducibility and reusability of biomolecular nuclear magnetic resonance (bioNMR) data. Our efforts have focused on both developing a workflow management system, called CONNJUR Workflow Builder (CWB), as well as refactoring our workflow data model to make use of the PREMIS model for digital preservation. This revised workflow management system will be available through the NMRbox cloud-computing platform for bioNMR. In addition, we are implementing a new file structure which bundles the original binary data files along with PREMIS XML records describing the provenance of the data. These are packaged together using a standardized file archive utility. In this manner, the provenance and data curation information is maintained together along with the scientific data. The benefits and limitations of these approaches, as well as future directions, are discussed in this paper.
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Cervino, Gabriele, Luca Fiorillo, Alina Arzukanyan, Gianrico Spagnuolo, and Marco Cicciù. "Dental Restorative Digital Workflow: Digital Smile Design from Aesthetic to Function." Dentistry Journal 7, no. 2 (March 28, 2019): 30. http://dx.doi.org/10.3390/dj7020030.

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Breakthroughs in technology have not been possible without influencing the medical sciences. Dentistry and dental materials have been fully involved in the technological and information technology evolution, so much so that they have revolutionized dental techniques. In this study, we want to create the first collection of articles on the use of digital techniques and software, such as Digital Smile Design. The aim is to collect all of the results regarding the use of this software, and to highlight the fields of use. Twenty-four articles have been included in the review, and the latter describes the use of Digital Smile Design and, in particular, the field of use. The study intends to be present which dental fields use “digitization”. Progress in this field is constant, and will be of increasing interest to dentistry by proposing a speed of treatment planning and a reliability of results. The digital workflow allows for rehabilitations that are reliable both from an aesthetic and functional point of view, as demonstrated in the review. From this study, the current field of use of Digital Smile Design techniques in the various branches of medicine and dentistry have emerged, as well as information about its reliability.
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Capparé, Paolo, Francesco Ferrini, Corrado Ruscica, Giuseppe Pantaleo, Giulia Tetè, and Enrico Felice Gherlone. "Digital versus Traditional Workflow for Immediate Loading in Single-Implant Restoration: A Randomized Clinical Trial." Biology 10, no. 12 (December 6, 2021): 1281. http://dx.doi.org/10.3390/biology10121281.

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The purpose of this randomized controlled trial was to compare the immediate-loading protocol, in single restorations in the esthetic zone, by comparing the digital workflow in a test group (TG) vs. the analogical workflow in a control group (CG). A total of 50 patients were enrolled, requiring single hopeless tooth extraction. Twenty-five patients (TG) were randomly assigned to the immediate-loading protocol using the digital workflow, and twenty-five patients (CG) were assigned to the conventional workflow. Clinical and radiographic parameters were evaluated at the time of implant insertion (baseline) and after 3, 6 and 12 months, respectively. A clinician blind to conditions measured the Pink Esthetic Score (PES), as well as patient satisfaction. At 12-month follow-up, a cumulative survival rate of 100% was reported for all implants. No failures or biological complications were observed. No statistically significant differences were detected in the mean values of marginal bone loss and PES between the TG (0.12 ± 0.66 mm for MBL, 7.75 ± 0.89 for PES) and the CG (0.15 ± 0.54 mm for MBL, 7.50 ± 0.89 for PES). In 11 cases of TG, and 10 cases of CG, a one-year follow-up period showed an increased marginal bone level. No statistically significant differences were found in the mean total PES between test (7.75 ± 0.89) and control (7.5 ± 0.81) conditions. Furthermore, a customer satisfaction survey showed that patients preferred the digital workflow over the conventional workflow procedure (97.6 ± 4.3 vs. 69.2 ± 13.8). Digital workflow was more time-efficient than conventional workflow (97.2 ± 7.3 vs. 81.2 ± 11.3). Within the limitations of this study, no statistically significant differences were found between digital and traditional workflow.
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Dusmukhamedov, Shavkat, Chu-Nui Lee, Seung-Mi Jeong, and Byung-Ho Choi. "Digital Denture Fabrication: A Technical Note." Applied Sciences 11, no. 17 (August 31, 2021): 8093. http://dx.doi.org/10.3390/app11178093.

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Fabricating a complete denture in a conventional manner may be complicated and difficult. The purpose of this article was to describe the benefits of a fully digital workflow and fabrication procedure of complete dentures based on digital impressions of edentulous jaws. The digital data for the workflow were acquired using an intraoral scanner and were then used to design the denture base and teeth. The resulting data were exported to a 3D printer or a milling machine for denture fabrication.
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Weigel, Tobias, Ulrich Schwardmann, Jens Klump, Sofiane Bendoukha, and Robert Quick. "Making Data and Workflows Findable for Machines." Data Intelligence 2, no. 1-2 (January 2020): 40–46. http://dx.doi.org/10.1162/dint_a_00026.

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Research data currently face a huge increase of data objects with an increasing variety of types (data types, formats) and variety of workflows by which objects need to be managed across their lifecycle by data infrastructures. Researchers desire to shorten the workflows from data generation to analysis and publication, and the full workflow needs to become transparent to multiple stakeholders, including research administrators and funders. This poses challenges for research infrastructures and user-oriented data services in terms of not only making data and workflows findable, accessible, interoperable and reusable, but also doing so in a way that leverages machine support for better efficiency. One primary need to be addressed is that of findability, and achieving better findability has benefits for other aspects of data and workflow management. In this article, we describe how machine capabilities can be extended to make workflows more findable, in particular by leveraging the Digital Object Architecture, common object operations and machine learning techniques.
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Akl, Mohammed A., Dina E. Mansour, Fengyuan Zheng, and WookJin Seong. "Digital Mounting Jigs: A Novel Technique." Digital 2, no. 2 (April 14, 2022): 164–70. http://dx.doi.org/10.3390/digital2020010.

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The accuracy with which virtual articulators are able to simulate centric and eccentric movements when fabricating definitive restorations has not yet been proven to be on par with mechanical articulators which have been reliably used in restorative dentistry for decades. This may be an issue when working on complex restorative cases utilizing a digital workflow and could result in considerable chairside adjustment time and subsequent loss of occlusal anatomy and morphology. Interchanging between digital and analog workflows is a challenge as accurate cross-mounting is difficult due to the changes that occur as the digital and analog workflows progress. This technique article provides a method for the fabrication of simple digital mounting jigs that enable clinicians and laboratory technicians to mount printed digital wax-ups and working casts back onto a programmed mechanical articulator, opposing diagnostic casts that have originally been mounted by means of a facebow transfer. This allows for the positioning of printed digital wax-ups and working casts to be in the correct 3-dimensional spatial relationship on the mechanical articulator for any necessary occlusal adjustments of the digitally designed wax-ups and/or definitive restorations before they are moved chairside.
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Ren, Ling Hui, Kai Liu, Hai Yan Zhang, and He Ping Hou. "Cutting Software Development Based on JDF Digital Workflow." Advanced Materials Research 174 (December 2010): 307–10. http://dx.doi.org/10.4028/www.scientific.net/amr.174.307.

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JDF is the XML-based format for the job descripting and exchanging. Through the Parse of JDF document’s grammar and data structure, we have got the information of layout. Combined with technical features of cutting papers and experiences of artificial processing paths, this article have to analyze the characteristics of irregular layout, then put out a new complex algorithm of cutting path and solve the planning of irregular layout cutting path. Development a optimization software of paper cutter. The cutting software based on JDF digital workflow, can obtain layout information directly from the prepress, and then transmitted generate cutting program to the cutter, which reduced the error caused by manual measurement and improved the cutting accuracy and efficiency.
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Coachman, Christian, Ralph Georg, Lauren Bohner, Lindiane Cogo Rigo, and Newton Sesma. "Chairside 3D digital design and trial restoration workflow." Journal of Prosthetic Dentistry 124, no. 5 (November 2020): 514–20. http://dx.doi.org/10.1016/j.prosdent.2019.10.015.

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Kalinski, Thomas, Saadettin Sel, Harald Hofmann, Ralf Zwönitzer, Johannes Bernarding, and Albert Roessner. "Digital workflow management for quality assessment in pathology." Pathology - Research and Practice 204, no. 1 (January 2008): 17–21. http://dx.doi.org/10.1016/j.prp.2007.12.001.

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41

Ahmed, Walaa Magdy, Amandeep Hans, Tyler V. Verhaeghe, and Caroline Nguyen. "Managing Excessive Gingival Display Using a Digital Workflow." Journal of Prosthodontics 29, no. 5 (May 6, 2020): 443–47. http://dx.doi.org/10.1111/jopr.13181.

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Reiner, Bruce. "Automating Radiologist Workflow Part 1: The Digital Consultation." Journal of the American College of Radiology 5, no. 10 (October 2008): 1080–85. http://dx.doi.org/10.1016/j.jacr.2008.05.014.

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Elnagar, Mohammed H., Sharon Aronovich, and Budi Kusnoto. "Digital Workflow for Combined Orthodontics and Orthognathic Surgery." Oral and Maxillofacial Surgery Clinics of North America 32, no. 1 (February 2020): 1–14. http://dx.doi.org/10.1016/j.coms.2019.08.004.

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Wideman, Catherine, and Jacqueline Gallet. "Analog to Digital Workflow Improvement: A Quantitative Study." Journal of Digital Imaging 19, S1 (September 8, 2006): 29–34. http://dx.doi.org/10.1007/s10278-006-0770-x.

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Zheng, Yuan, Seppo Törmä, and Olli Seppänen. "A shared ontology suite for digital construction workflow." Automation in Construction 132 (December 2021): 103930. http://dx.doi.org/10.1016/j.autcon.2021.103930.

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Nishiyama, Hirotaka, and Kazuyoshi Baba. "Fully digital workflow for removable partial denture fabrication." Annals of Japan Prosthodontic Society 14, no. 1 (2022): 5–9. http://dx.doi.org/10.2186/ajps.14.5.

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47

Goodacre, Brian J. "Digital workflow for 3D printed implant surgical guides." Journal of Prosthetic Dentistry 127, no. 2 (February 2022): 205. http://dx.doi.org/10.1016/j.prosdent.2022.01.002.

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48

Celebi, Remzi, Joao Rebelo Moreira, Ahmed A. Hassan, Sandeep Ayyar, Lars Ridder, Tobias Kuhn, and Michel Dumontier. "Towards FAIR protocols and workflows: the OpenPREDICT use case." PeerJ Computer Science 6 (September 21, 2020): e281. http://dx.doi.org/10.7717/peerj-cs.281.

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It is essential for the advancement of science that researchers share, reuse and reproduce each other’s workflows and protocols. The FAIR principles are a set of guidelines that aim to maximize the value and usefulness of research data, and emphasize the importance of making digital objects findable and reusable by others. The question of how to apply these principles not just to data but also to the workflows and protocols that consume and produce them is still under debate and poses a number of challenges. In this paper we describe a two-fold approach of simultaneously applying the FAIR principles to scientific workflows as well as the involved data. We apply and evaluate our approach on the case of the PREDICT workflow, a highly cited drug repurposing workflow. This includes FAIRification of the involved datasets, as well as applying semantic technologies to represent and store data about the detailed versions of the general protocol, of the concrete workflow instructions, and of their execution traces. We propose a semantic model to address these specific requirements and was evaluated by answering competency questions. This semantic model consists of classes and relations from a number of existing ontologies, including Workflow4ever, PROV, EDAM, and BPMN. This allowed us then to formulate and answer new kinds of competency questions. Our evaluation shows the high degree to which our FAIRified OpenPREDICT workflow now adheres to the FAIR principles and the practicality and usefulness of being able to answer our new competency questions.
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Zhu, Hua Bing, Bo Lin Dong, Zhi Sen Wang, and Ben Lei Liang. "Digital Human and New Type of Man-Machine Coordinated Digital Shop Manufacturing System." Advanced Materials Research 774-776 (September 2013): 1375–81. http://dx.doi.org/10.4028/www.scientific.net/amr.774-776.1375.

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On the basis of modern technology of wireless communication and wireless local area network, a concept of Digital Human (DM) is put forward. DM change ordinary man-machine coordinated mode as DM-machine coordinated mode. Base on the discussion of the realization of DM, an innovated mode of digital shop floor manufacturing system is put forward also by introducing the mobile computing technology. Finally, the innovated mode of Man-Machine Coordinated Digital Shop Manufacturing system (MMCDSM) is presented. This paper also analyzes the network architecture and function module of this type of shop floor manufacturing system. Finally, integrating with multi-agent technology and workflow technology, a new methodology of role-based workflow modeling by utilizing multi-agent & DM is also put forward which can be applied in the MMCDSM.
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Leong, Iok-Fai, Yain-Whar Si, and Robert P. Biuk-Aghai. "Critical Path Based Approach for Predicting Temporal Exceptions in Resource Constrained Concurrent Workflows." International Journal of Information Technology and Web Engineering 5, no. 3 (July 2010): 27–48. http://dx.doi.org/10.4018/jitwe.2010070102.

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Departmental workflows within a digital business ecosystem are often executed concurrently and are required to share a limited number of resources. However, unexpected events from the business environment and delays in activities can cause temporal exceptions in these workflows. Predicting temporal exceptions is a complex task, since a workflow can be implemented with various types of control flow patterns. In this paper, the authors describe a critical path based approach for predicting temporal exceptions in concurrent workflows, which are required to share limited resources. This approach allows predicting temporal exceptions in multiple attempts while workflows are being executed.
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