Part 1: Create a Project and Add Levels. In this exercise, you start a project and create levels for the foundation, store floor, upper and lower parapets of the building model. Part 2: Create Walls. In this exercise, you work on different levels to add . Mastering Autodesk Revit Architecture James Vandezande, Phil Read, Eddy Krygiel. ISBN: June Pages. Print. Starting at just $ Paperback. $ Read an Excerpt. Autodesk provides download and install instructions both for individuals and for administrators. Individuals should sign into their Autodesk Account or education site. Find your product and click View Downloads. Select the version, platform and language and then select a download method. For more information, visit the Autodesk Knowledge Network.
 
 

Step01/12-autodesk revit architecture 2011-german tutorial 2/3 free –

Message 5 of The help files are no longer produced in a CHM file. All help files are HTML web help. When you access help from in the product, if an internet connection is detected then you are directed to online help.

If a connection is not found a local version of the web help is accessed. Message 6 of Jeff, Thank you for responding, unfortunately this is not good news Autodeask has to share. Message 7 of Message 8 of Message 9 of Message 10 of Message 11 of Message 12 of Message 13 of So with the purchase of the book there is siill some hope left for “Self Paced Tutorials” Just getting onto the book so if anyone would like to comment please feel free.

Post Reply. Can’t find what you’re looking for? Ask the community or share your knowledge. Report a website issue. It is helpful to watch the video before performing the steps to get an overview of the workflow and procedures presented in the tutorial.

Tutorial Files Download this zip file and extract its contents for the complete set of files needed to complete the tutorial series. Prerequisites Even if you are familiar with 3D modeling or other Autodesk software, watch the Essential Skills videos that are provided with Revit. Tutorial Videos A video is available for each tutorial.

Topics in this section Part 1: Create a Project and Add Levels In this exercise, you start a project and create levels for the foundation, store floor, upper and lower parapets of the building model. Part 2: Create Walls In this exercise, you work on different levels to add exterior walls, interior walls and a corridor to the project.

Dann frag ich meinen Schulungsleiter ob der das noch hat. Nachricht 8 von Nachricht 9 von Hallo Tarek, ich hab ja die ner Version bei mir installiert. Ich hab halt nur nach Tutorials bei YouTube geguckt und das dann gefunden.

Es sind gute Videos die sich gut auch im nacharbeiten lassen. Nachricht 10 von Nachricht 11 von Nachricht 12 von Nachricht 13 von Hallo johannes. Nachricht 14 von Nachricht 15 von Ich hab den Link schon vorher mal gesehen, aber es ist wirklich zu alt. Ich werd einfach an den Stellen improvisieren.

The model describes not only the geometry of the model elements, but also captures the design intent and l. Revit provides access to a growing family of integrated cloud services. Use cloud services to collaborate on projects with distributed teams, perform analysis and simulations, render images, and more. Some cloud services are available for no additional c. Skip to main content. Knowledge Network Support and learning Revit.

– Step01/12-autodesk revit architecture 2011-german tutorial 2/3 free

This is a preview of subscription content, access via your institution. Luis M. Hamideh Afsarmanesh. Rosanna Fornasiero. Editors : Luis M. Publisher : Springer Cham. Hardcover ISBN : Softcover ISBN : Series ISSN : Edition Number : 1.

Skip to main content. Search SpringerLink Search. Editors: Luis M. View editor publications. Includes supplementary material: sn. Buying options eBook EUR Price includes VAT Finland. Green-building-research-current-status-and-future-agenda-A-review Renewable-and-Sustainable-Energy-Reviews by kai huang. Review of digital technologies to improve productivity of New Zealand construction industry by Ms. Tabinda Chowdhury. Timothy O Olawumi. Download Download PDF.

Translate PDF. Javier Irizarry, Assistant Professor Dr. The aim of this paper is to develop a prototype of a Sustainable-Construction Planning System SCPS in order to mitigate the negative impacts of the construction industry on the environment. To achieve this aim, frequency and severity of known environmental impacts of construction process of residential buildings were investigated through interviews with a safety expert panel in Malaysia.

Then, risk level associated with each environmental impact was calculated based on the relevant risk matrix. It can be concluded that the SCPS is efficient and helpful in mitigating construction related impacts on the environment. This study could be a platform for developing automated sustainable planning systems that can be used broadly in construction projects.

ITcon Vol. This is an open access article distributed under the terms of the Creative Commons Attribution 3. Compared with other industries, construction is a main source of environmental pollution Ofori et al. Building construction and operations have a massive direct and indirect effect on the environment Cho et al. Pollution sources resulting from construction processes include harmful gases, noise, dust, solid and liquid wastes Tah and Abanda, This issue has motivated construction participants to intentionally monitor and control the impacts of their activities by adopting environmental management systems Shen et al.

Construction practitioners should be aware of sustainable construction practices in order to be able to adequately reduce the negative impacts of their actions on the environment.

Awareness and knowledge are the main factors to intensify the sustainable movement in the construction industry Zainul Abidin, The Malaysian government, professional bodies and private organizations have started several programs to enhance the awareness and knowledge of construction practitioners, and also to promote sustainable practice application within construction projects Zainul Abidin, Unfortunately, there is no pattern for construction participants to follow to mitigate environmental impacts resulting from construction activities.

Management needs a reliable database to provide comprehensive information on environmental impacts of construction projects and sustainable strategies. Such a system will enable managers to be aware of the environmental impacts of current construction activities in order to devote adequate resources to mitigation of such environmental impacts on the construction site. The SCPS automatically provides the essential information which is required to perform sustainable construction, for achieving superior quality in both performance and economic terms of a project.

Due to the wide range of materials being used in the construction, the consideration of materials is out of scope of this study. It was indicated that BIM can simplify the process of construction design and automate complex activities.

In addition, Azhar et al. Although, BIM creates similar results to the manual calculation, some discrepancies were recorded. It might be because of the incompleteness of the building information model of a project and limitation of modelling some finishes in the model. Thus, it was recommended to check results manually. Geyer developed ITcon Vol. PSM models the interdependencies between disciplinary approaches to evaluate sustainability, so designers can almost automatically develop well-performing configurations of the whole design.

Some BIM technologies are available for making sustainable design practices easier, more efficient, and less costly, which are developed by Autodesk Other research approaches considered implementing and adopting decision support systems for sustainable construction. A web-based decision support system- namely DeconRCM- was developed for the optimal management of construction and demolition waste.

The purpose of developing DeconRCM was to increases knowledge and awareness of users towards sustainable construction and demolition waste management Banias et al. Likewise, the application of the semantic web techniques was explored to represent sustainable building technologies, and recommend proper measures to make decisions in various circumstances Tah and Abanda, The system helped planners in their decision-making process, and also provides a tool for inspection and management of the sustainability of buildings.

The major advantage of using Spatial Decision Support System lies in permitting planners to edit, store, transform, analyze and visualize environmental information for making decisions in different situations. Other research resulted in the development of a tool to manage the environmental performance of construction activities.

Shelbourn et al. The particular aspects of SMAZ were to present sustainability criteria and process during the design stage, construction projects, and the selection of subcontractors and materials. Shen, et al. The system assisted contractors to find poor environmental performance in order to adopt proper measures. Besides, the system linked environmental performance achieved by a contractor to the different construction practitioners. The growth of construction and its environmental impacts emphasize the importance of the need for sustainable construction processes and actual ways to manage sustainability measures for sustainable construction.

It is very important to predict what the environmental impact of construction is and how it can be prevented before starting an activity. For such anticipations, an interaction between sustainable construction planning and scheduling can be helpful. The above approaches have focused on developing sustainable design and scoring methods for environmental performance assessment. Thus, there is a lack of a sustainable construction model that can be fully integrated with a construction schedule.

Such a model would be able to determine the environmental risk level of construction activities and report the current environmental impacts of the construction process as well as the applicable sustainable strategies that can mitigate such impacts.

This paper contributes to the body of knowledge by developing an algorithm to automate evaluation of activity-level environmental issues and becomes part of an automated computer-based sustainable planning tool for residential buildings. This contribution will help construction parties and construction managers, especially less experienced managers, to access a comprehensive overview of the probable environmental impacts of construction activities and essential sustainable strategies to mitigate environmental impacts.

The proposed system generates results very quickly which can aid in saving time and resources. It enables construction parties to focus on the environmental impacts of construction activities and the required sustainability measures individually. However, the construction industry has negative influences on the environment in Malaysia, such as soil erosion and sedimentation, destruction of vegetation, flash floods, dust pollution, and the use of building materials harmful to human health CIDB Malaysia, The green movement in Malaysia is mostly in its initial stage and more efforts should be made regarding recognizing the green agenda of the construction industry Zainul Abidin, Construction management is not just related to optimization of time, cost, quality, and safety, but it is also related to sustainable construction Shelbourn et al.

The economic elements such as increased profitability and competitiveness, the social dimension such as the delivery of buildings which meet the agreement of its customers and also stakeholders, and the environmental elements like protection of natural resources and ecosystems as well as reduction of environmental impacts are the elements of a sustainable construction sector CIDB Malaysia, Construction activities will always cause undesirable environmental impacts but the application of sustainable construction principles can reduce the environmental impacts Ofori G, Construction activities are considered as one of the main obstacles to achieving sustainable development Wetherill et al.

Prediction of the correlated environmental impacts of construction before the construction stage, will lead to improved environmental performance of construction projects and sites. The determination of major environmental impacts will assist to consider a range of on-site measures to mitigate them Irizarry and Gill, The environmental impacts across construction processes consist of ecosystems impact, natural resources impact, and public impact Dave et al.

The severity of the consequences is defined as the extent of damage that could result from an impact on the environment. Risk can be assessed and presented, using matrices, by estimating probabilities and consequences in a qualitative manner or with quantitative values Ayyub, The significant rating of a risk expected loss is shown in Eq.

The methodology consists of data collection, risk level of environmental impacts, and development and evaluation of the SCPP. The details of the development process are described in the following sections. A thorough literature review, including Ofori et al. The environmental impacts can be developed into further subcategories. A list of 26 subcategories of the environmental impacts was identified through the previous research Ofori et al.

Table 1 shows environmental performance subcategories as environmental impacts across construction processes. The interview was conducted to investigate the frequency and severity of the environmental impacts across construction of residential buildings in Malaysia. The interview included two main sections, Section A covered the background and general information of the respondents, and Section B included the environmental impacts of construction process.

In addition, the relationship between the environmental impacts of construction process and the common construction activities was discussed. There is a variety of construction activities, thus similar type of work across construction projects was selected for this study.

The common activities of construction of residential buildings are related to one or more of the following domains: a earth work, b reinforcing steel placement, c concrete placement, d formwork installation, and e masonry. The main programming procedure should look for the current activities of a project. If the activity is one of the common construction activities, namely a earth work, b reinforcing steel placement, c concrete placement, d formwork installation, and e masonry, related environmental impacts of activities and sustainable strategies will be assigned.

Then, the environmental impacts will be classified based on their risk levels. Finally, after finding all current activities, the activities will be compared with each other to be ranked in order of their environmental risk levels. This means that the most risky activity will be listed first, while the least risky activity will be listed last on the report. The proposed algorithm was evaluated by the same expert panel group to ensure the accuracy and efficiency of the final system.

For instance, the Task object was used to retrieve all tasks in the Active-Project object model. The database was opened using connection string; and information related to current activities was retrieved from Worksheet and Range objects.

The developed SCPS consists of three main phases: input, procedure, and output. Environmental Risk database includes the risk rate of construction activity related impacts on the environment, including their frequency and severity.

Using the environmental impacts assessment database, the project management team can be aware of the most dangerous environmental impacts during each construction activity. The Construction Activity database is based on the common construction activities.

Sustainable Strategy database contains the essential sustainable strategies which were extracted from relevant references Ofori et al. These strategies identify the ITcon Vol. In the first stage of the evaluation, a meeting was held to describe the SCPS and provide required instructions. More details of the evaluation will be discussed in subsequent sections. They were interviewed to rank the frequency and severity of common environmental impacts of construction projects in Malaysia. About 73 percent of the interviewees had more than 15 years of experience, and approximately 13 percent had less than five years of experience.

The risk level of environmental impacts was calculated with Equation 1, and sorted in descending order. Higher scores indicate higher impacts on the environment compared to others.

This indicates that choosing appropriate and local products and materials may result in a significant reduction in the environmental impact, because the lower rate of fuel will be required to transport materials. The noise generated during construction and its influence vary, depending on the nature of the activities, the type and the status of equipment being used, the nature of the surrounding environment, and considerations of environmental and health regulations Gannoruwa and Ruwanpura, Even though their shares are small, it is important to decrease their environmental impact.

There is a potential to decrease their impact by applying advanced technologies or changing construction equipment. Table 5 represents the environmental risk level of the five common construction activities as a result of summation of the risk level of related environmental impacts to each activity.

In addition, the risk levels are normalized to bring all of the variables into proportion with one another in order to provide approximately equivalent values for the better understanding of variables.

Equation 2 shows the calculation of normal risk level Etzkorn, The SCPS includes automatic mode and manual mode. In the manual mode, the operators can customize the report by selecting the sustainable strategies. The output of the SCPS is a report including start dates, finish dates, environmental impacts, and sustainable performance for current construction activities.

The environmental impacts are prioritized in order of risk levels so that the managers would be aware of critical environmental impacts. This attribute helps the project management team to be aware of which sustainable and protective measures should be considered for the current activities so as to improve their sustainable performance and mitigate negative environmental impacts. In the construction field, usability assessment is used to evaluate proposed prototypes Nourbakhsh et al.

In this study, two instruments adopted by Davis Davis, were used to evaluate the usefulness and ease-of-use of the SCPS. These two instruments are selected in this study to find the usability of the SCPS on sustainable construction performance, because of their proven psychometric quality such as reliability, content validity, and construct validity Cheung et al.

During the meeting with five construction managers, first, the instructions for using the SCPS were described to the participants. At the end of the meeting, users filled a questionnaire to express their feedback regarding the ease-of-use and the usefulness of the SCPS as a sustainable planning tool. The questions of two instruments -adopted from Davis -which were discussed during evaluation are presented in Appendix 1.

The SCPS has two modes, automatic and manual mode. The automatic mode is recommended for less experienced users since the sustainability report can be automatically generated in two steps as shown in Figure 4.

In contrast, the manual mode is designed to enable experienced users to manipulate the schedule if a task requires specific attention regarding sustainable construction.

Users can browse tasks on the schedule Step 2- Figure 6 , search the database looking for a specific sustainable regulation Step 3- Figure 6 , then based on the results obtained Step 4- Figure 6 , select an appropriate sustainable regulation and assign it to the task Step 5- Figure 6. The results of the evaluation show that the SCPS is an innovative tool to promote sustainable performance to protect the natural ecosystem.

In addition, the SCPS proposes a new tool, which facilitates daily monitoring of sustainable performance. During the evaluation, interviewees emphasized that the user interface of the SCPC was easy to understand and did require having prior knowledge of the subject. This advantage will help to undertake the required sustainability measures to minimize the impacts of construction process on the environment. The users mentioned that using SCPS made it easy for them to ensure that the necessary sustainability measures would be accomplished in the ITcon Vol.

They expressed that managers could use toolbox in daily meetings to provide clarification to workers about environmental impacts and sustainability measures of daily construction activities. Thus, construction participants will be motivated to precisely act in accordance with the sustainable construction strategies.

Moreover, the sustainable-monitoring task is simplified when using the report from the SCPS to compare with actual sustainable construction performance on site. The integration of the construction schedule with environmental impacts and sustainable construction strategies can create a clear and mutual understanding among the project team.