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HyperFold
Published in Peixuan Guo, Kirill A. Afonin, RNA Nanotechnology and Therapeutics, 2022
Eckart Bindewald, Bruce A. Shapiro
Enter input data into web server formThe user needs to fill out the web form as shown in Figures 16.2 and 16.4. This involves the following steps:The prepared sequence information should be opened in a text editor. The sequences can be transferred from the text editor to the text area labeled “Sequences” in the browser form via “copy and paste”.The desired concentration can be entered into the web form in units of micromol/l. Note that currently the concentration of all strands is assumed to be equal.The folding temperature can be changed from the default of 37C to the desired value.Decide on a folding “mode”. The default is regular thermodynamic folding (corresponding to parameter “thermodynamic”. It is also possible to emphasize kinetic effects in the folding algorithm by choosing parameter “kinetic”. In that mode, intra-strand helices are folded before inter-strand helices and the search queue size is smaller compared to the thermodynamic folding mode.
Remaining life prediction of an aged bridge by J-BMS RC version and verification through concrete core tests
Published in Airong Chen, Xin Ruan, Dan M. Frangopol, Life-Cycle Civil Engineering: Innovation, Theory and Practice, 2021
The repair and strengthening database has been developed for integrated management of various data obtained through the repair and strengthening of existing bridges. This database has the repair/strengthening data search function for searching stored data and the repair/strengthening data input function for entering data to the repair and strengthening database through the Web form. Like the bridge specification database, this database also had problems such as the lack of consideration of input from electronic data and the lack of a function for outputting data in the form of electronic data from the database. This database, therefore, has been upgraded by implementing new functions, namely, the repair/strengthening data upload function for automatic input of electronic data and the repair/strengthening data output function for outputting Excel files containing stored data.
Cloud decision support platform
Published in Blagoj Delipetrev, Nested Algorithms for Optimal Reservoir Operation and Their Embedding in a Decision Support Platform, 2020
The web service for water resources optimization is created from several components: web form for entering data, prototype code for uploading data into HMak database coded in PHP and Ajax, nDP, nSDP, and nRL Java applications and a web page for presenting results. The input data are uploaded using “Optimization” tab shown in Figure 7.2. The input data are depending on the algorithm that is used and need to be saved in files in CSV format. Three algorithms are embedded in the web service for WRO: 1) nDP, 2) nSDP and 3) nRL. The input data are loaded and stored into the DI. The nDP, nSDP, and nRL algorithms are exported as an executable JAR file saved in the file directory on the VM2.
Towards Digital Forensics Investigation of WordPress Applications Running Over Kubernetes
Published in IETE Journal of Research, 2023
Muhammad Faraz Hyder, Syeda Hafsa Ahmed, Mustafa Latif, Kehkashan Aslam, Ata. U. Rab, Mussab T. Siddiqui
SQL injection attacks are one of the oldest hacking attacks in hacking webbooks, affecting or destroying the database using the web form or input field. Once a hacker intrudes on the systems successfully, they can play with the integrity of the MySQL database. They may get access to WordPress admin or modify their credentials for more damage. Often, such kinds of attacks are performed by inexperienced and mediocre hackers to put their hacking skills to the test.
An open-source web mapping tool to estimate wind energy in the Iberian Peninsula
Published in Journal of Spatial Science, 2019
Francisco Gomariz-Castillo, Francisco Alonso-Sarría, Juan Pedro Montávez, Raquel Lorente-Plazas
The client program allows the user to locate any point of interest to be located using orthophotos or the land properties map. Once the point has been located, the data are sent to the server using a web form or by clicking on the map. The response of the server is in the form of a report that provides an analysis of the wind resource at the point of interest. Figures 7–9 show some of the elements included in such a report. Finally, Figure 10 shows an example of the kind of report produced by the server. It includes:An evaluation of the selected point, including a summary of its location and the most relevant data (Figure 8(a)).An assessment of the wind resource (Figures 7 and 10(b)), including a histogram of frequencies adjusted to the Weibull distribution function, the wind rose and the monthly series, including a moving median, for the whole simulated period (1960–2007).A comparison of the model output with real values for the three nearest stations (Figures 8 and 10(c)), including a representation of the daily and annual cycles of the wind speed. The user can use this information to estimate the accuracy of the model in the surroundings of the location of interest. Despite the fact that only 578 weather stations are available and that the coarse resolution of the model introduces some uncertainties in the accuracy estimation, the flatness of the terrain in most of Spain reduces this uncertainty. It would obviously be desirable to have more weather stations than those available at the moment.A study of the potential wind power. An example using the Sonkyo turbine is shown in Figures 9 and 10(d). The table with wind speeds and the predicted energy production of the turbine are complemented by two compass roses representing energy and power.