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Infographie Apec - Le profil des cadres qui négocient leur salaire à l'embauche
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Infographie Apec - Le profil des cadres qui négocient leur salaire à l'embauche
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Pages from winter 2011 newsletter
The document discusses a bridge reconstruction project in Connecticut where O&G Industries is rebuilding the foundations of the Moses Wheeler Bridge. The project involves constructing staging decks, waste stockpiles, and temporary trestles in the Housatonic River to support heavy equipment. The largest challenge is drilling 36 large shafts, 10 feet in diameter, for the new pier foundations, mostly located in the river bed. The project superintendent and manager give the project high praise for its teamwork, technology, and outstanding safety record, rating it 9 or 9.5 out of 10.
Winter 2011 Newsletter
The document summarizes the massive Kleen Energy Power Plant project in Middletown, Connecticut that O&G Industries is developing. Some key details:
- The 620 megawatt natural gas power plant will be one of the largest ever built and cost over $750 million.
- Sitework is underway which involves excavating 1.6 million cubic yards of earth and rock from the former feldspar mine site. Up to 400 workers will be involved at the peak of construction.
- The combined cycle plant will use both gas turbines and steam turbines to generate electricity with over 60% efficiency. When completed in 2010, it will supply power to the electric grid operated by Northeast Utilities.
Winter 2012 Newsletter
The document summarizes work by O&G Industries on several major transportation projects in Connecticut. It discusses:
1) O&G beginning work in 2011 on a $356 million project to reconstruct parts of Interstates 95, 91 and Route 34 in New Haven, which is part of a larger $2 billion bridge replacement project.
2) The work involves removing aging overpasses and rebuilding parts of the interchange to accommodate increased traffic volumes.
3) O&G purchased a large crane specifically for pile driving needs on the complex project, which requires over 170,000 feet of concrete piles.
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The document summarizes O&G Industries' involvement in developing the massive 620 megawatt Kleen Energy Power Plant project in Middletown, Connecticut. It describes O&G partnering with Kleen Energy Systems over 7 years ago to plan and develop the $760 million project, which will be one of the largest power plants built in Connecticut. The project involves extensive site preparation work on the 150-acre former feldspar mine, including removing 1.6 million cubic yards of earth and rock. Once completed in 2010, the natural gas-fired combined cycle power plant will provide electricity for the state. The scale of the project and coordination of hundreds of contractors from around the world presents major challenges for O&G
Efco write up
The document summarizes a large infrastructure project to reconstruct an interchange in New Haven, Connecticut. The interchange was originally built in 1958 but is now handling 50% more traffic than its original design capacity. The $357 million contract includes reconfiguring the interchange, constructing new ramps and bridges, and widening existing bridges. Temporary formwork including custom transition forms between round columns and pier caps were used to construct the 85 columns and 34 pier caps efficiently.
Harnessing WebAssembly for Real-time Stateless Streaming Pipelines
Traditionally, dealing with real-time data pipelines has involved significant overhead, even for straightforward tasks like data transformation or masking. However, in this talk, we’ll venture into the dynamic realm of WebAssembly (WASM) and discover how it can revolutionize the creation of stateless streaming pipelines within a Kafka (Redpanda) broker. These pipelines are adept at managing low-latency, high-data-volume scenarios.
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Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Comparative analysis between traditional aquaponics and reconstructed aquapon...
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
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TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEM
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
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原版一模一样【微信:741003700 】【美国波士顿大学毕业证学历学位证书】【微信:741003700 】学位证,留信认证(真实可查,永久存档)offer、雅思、外壳等材料/诚信可靠,可直接看成品样本,帮您解决无法毕业带来的各种难题!外壳,原版制作,诚信可靠,可直接看成品样本。行业标杆!精益求精,诚心合作,真诚制作!多年品质 ,按需精细制作,24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题,包您满意。
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留信网认证的作用:
1:该专业认证可证明留学生真实身份
2:同时对留学生所学专业登记给予评定
3:国家专业人才认证中心颁发入库证书
4:这个认证书并且可以归档倒地方
5:凡事获得留信网入网的信息将会逐步更新到个人身份内,将在公安局网内查询个人身份证信息后,同步读取人才网入库信息
6:个人职称评审加20分
7:个人信誉贷款加10分
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Recycled Concrete Aggregate in Construction Part II
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
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DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODEL
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Eric Nizeyimana's document 2006 from gicumbi to ttc nyamata handball play
this notes have been created
by Eric36 at nyamata ttc
after readings
pe book for y2sme .
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The document discusses a bridge reconstruction project in Connecticut where O&G Industries is rebuilding the foundations of the Moses Wheeler Bridge. The project involves constructing staging decks, waste stockpiles, and temporary trestles in the Housatonic River to support heavy equipment. The largest challenge is drilling 36 large shafts, 10 feet in diameter, for the new pier foundations, mostly located in the river bed. The project superintendent and manager give the project high praise for its teamwork, technology, and outstanding safety record, rating it 9 or 9.5 out of 10.
Winter 2011 Newsletter
The document summarizes the massive Kleen Energy Power Plant project in Middletown, Connecticut that O&G Industries is developing. Some key details:
- The 620 megawatt natural gas power plant will be one of the largest ever built and cost over $750 million.
- Sitework is underway which involves excavating 1.6 million cubic yards of earth and rock from the former feldspar mine site. Up to 400 workers will be involved at the peak of construction.
- The combined cycle plant will use both gas turbines and steam turbines to generate electricity with over 60% efficiency. When completed in 2010, it will supply power to the electric grid operated by Northeast Utilities.
Winter 2012 Newsletter
The document summarizes work by O&G Industries on several major transportation projects in Connecticut. It discusses:
1) O&G beginning work in 2011 on a $356 million project to reconstruct parts of Interstates 95, 91 and Route 34 in New Haven, which is part of a larger $2 billion bridge replacement project.
2) The work involves removing aging overpasses and rebuilding parts of the interchange to accommodate increased traffic volumes.
3) O&G purchased a large crane specifically for pile driving needs on the complex project, which requires over 170,000 feet of concrete piles.
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The document summarizes O&G Industries' involvement in developing the massive 620 megawatt Kleen Energy Power Plant project in Middletown, Connecticut. It describes O&G partnering with Kleen Energy Systems over 7 years ago to plan and develop the $760 million project, which will be one of the largest power plants built in Connecticut. The project involves extensive site preparation work on the 150-acre former feldspar mine, including removing 1.6 million cubic yards of earth and rock. Once completed in 2010, the natural gas-fired combined cycle power plant will provide electricity for the state. The scale of the project and coordination of hundreds of contractors from around the world presents major challenges for O&G
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As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
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