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Larry Jordan II Lancaster
Cell phone towers are high and tall structures used to enhance cell phone coverage and capacity. They transmit and receive radio signals to and from mobile devices, facilitating communication such as calls, text messages, and internet access. The towers are typically found in urban areas, near highways, or remote areas where cell phone coverage is limited. Wireless carriers such as Verizon, AT&T, or T-Mobile own the towers and lease space to other providers. However, working on these towers can be dangerous, and workers need to understand the potential risks associated with working at heights, with electrical equipment, and in outdoor environments. Proper training, protective equipment, and safety procedures are essential to ensure worker safety.
The risks and the solution
1. Safety & Accidents: Workers who climb towers are at risk of falls, which can result in serious injury or even death. Falls can occur due to slips, trips, or loss of balance, or due to equipment failure or insufficient safety measures.
The solution: Larry Jordan II Lancaster offers to reduce the maximum height that a worker would be required to work at during construction/maintenance/repair of the tower to 1.8 ft.
2. Electrocution: Mobile towers are often used to transmit high-voltage electrical signals, so workers need to be careful to avoid coming into contact with live wires or equipment, or even aircraft. They should also be aware of the potential for electrical arcing or other hazards associated with high-voltage electrical systems.
The solution: Standard Ascension Tower has reduced the max amount of the voltage to 2.0V.
3. Structural collapse: Towers can be damaged by high winds, lightning strikes, or other environmental factors, which can cause them to collapse. Workers should be aware of the signs of structural damage and should take appropriate precautions to prevent collapse.
The solution: Standard Ascension Tower offers a 12.7/1.5 ratio of the maximum stress that key components of design can withstand to the maximum stress experienced.
4. Weather-related hazards: Workers who operate in outdoor environments may be exposed to extreme weather conditions such as high winds, lightning, or extreme heat or cold. They need to take appropriate precautions to avoid exposure to these hazards.
The solution: Standard Ascension Tower by Larry Jordan II Lancaster proposes a weather-resistant paint to protect the structure externally. It can help combat the effects of temperature, by acting as an insulator, and help prevent corrosion. The coating slurry is comprised of oxidizing agents at a minimum concentration of 10 grams/liter such that the passive film is compact and continuous
To minimize these hazards, a project like Standard Ascension Tower should be brought into implementation with proper training, protective equipment, and safety procedures for their workers. Workers should also be aware of their surroundings and take appropriate precautions to stay safe while on the job.
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Larry Jordan II Buffalo NY
Standard Ascension Towers (SAT) by Larry Jordan II Buffalo is a telecommunications manufacturing firm focused on providing precision controls to networks. The company was formed as a joint venture with the participation of new investors and the current owners, PRZ Technologies and Wally P, its President. The company is organized as a closely-held corporation with a majority of the shares held by the principal executives. The first manufacturing facility is located in Western New York, which was chosen due to incentives and tax-free operation opportunities for tech startups.
Height: Worker safety is the main motivation for this project and a big part of keeping the workers safe is eliminating the climbing of the cell phone towers.
2. Construction: The towers are typically constructed from steel or reinforced concrete, and are designed to withstand high winds and other extreme weather conditions.
3. Antennas: The towers are equipped with antennas and other equipment necessary for transmitting and receiving various types of communication signals. Antennas came to ground in order to provide safety to the workers.
4. Lighting: Ascension towers are often equipped with warning lights and other safety features to ensure they are visible to aircraft and other nearby objects.
5. Access: Towers are equipped with ladders, stairs, and other means of access to allow maintenance personnel to reach the antennas and other equipment located on the tower.
6. Security: Ascension towers are typically secured with fencing, gates, and other security features to prevent unauthorized access.
7. Foundation: The towers are anchored to a concrete foundation that provides stability and support for the tower.
8. Maintenance: Regular maintenance is required to keep the tower and its equipment in good working order and ensure reliable transmission of signals.
Overall, ascension towers are essential infrastructure for modern communication networks and play a critical role in enabling the transmission of information across large distances.
Increased range: Ascension towers can transmit communication signals over long distances, enabling communication between remote locations that would otherwise be difficult or impossible.
2. Improved reliability: Ascension towers are built to withstand extreme weather conditions and other environmental factors, ensuring reliable transmission of signals even in harsh conditions.
3. Enhanced safety: The warning lights and other safety features on Ascension towers help to prevent collisions with aircraft and other nearby objects, ensuring the safety of both people and property.
4. Accessible maintenance: The ladders, stairs, and other means of access make it easier for maintenance personnel to reach the antennas and other equipment on the tower, reducing downtime and improving the efficiency of maintenance.
5. Efficient use of space: By transmitting signals over long distances, Ascension towers can reduce the need for multiple smaller transmission sites, freeing up valuable space for other uses.
6. Reduced costs: By enabling communication over long distances and reducing the need for multiple smaller transmission sites, Ascension towers can help to reduce the costs associated with building and maintaining communication networks.
Overall, the standard features of Ascension Towers provide a range of benefits that are essential for modern communication networks, including increased range, reliability, safety, accessibility, space efficiency, and cost savings.
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Larry Jordan II Lancaster
What Standard Ascension Tower will deliver?
Ascension Tower is a unique and revolutionary tower made from a new, patent-protected, design. The towers are much safer and which makes penetration into the existing markets less difficult. The inventor, Larry Jordan II Lancaster believes in their versatility, automation, wireless capabilities, security, safety, and accurate control capabilities. The patented process and product give our Standard Ascension Tower towers the following advantages over the existing towers:
Much less cost to maintain and build.
Traditional cell towers require regular maintenance to ensure that they operate efficiently and effectively, which can be time-consuming and costly.
More durable
This occurs when too many users are trying to access the network at the same time, leading to slower speeds, dropped connections, and other performance issues. Mobile networks can be affected by interference from other devices, such as microwaves, causing signal degradation and connectivity issues.
Have the ability to collocate more carriers.
There is a limited amount of spectrum available for mobile networks, which can make it difficult for carriers to expand their networks and provide better service.
The tower is fully automated.
Being fully automated will eliminate the need to climb the towers. Traditional cell towers can be dangerous for technicians who need to climb to the top to perform maintenance or repairs.
Able to remotely change azimuths.
Carriers are losing millions off of Azimuth devotion
Able to remotely bring down tower top components in the event of disastrous or damaging weather.
Traditional cell towers rely on electricity to operate, and power outages can result in service disruptions, particularly in areas prone to natural disasters.
Guaranteed for years.
Traditional cell towers require regular maintenance to ensure that they operate efficiently and effectively, which can be time-consuming and costly.
Tower components will be inaccessible to thieves
Short-range wireless tower top capabilities to ensure faster speeds, elimination of the need for fiber, power, and coaxial.
Features of Standard Ascension Tower
Improved Efficiency: Automated cell towers can operate with minimal human intervention, reducing the need for manual monitoring and maintenance. This can help improve the efficiency of the network infrastructure, as well as reduce the cost and time associated with managing the network.
Enhanced Network Reliability: Automated cell towers are designed to respond quickly to changes in network demand and environmental conditions, ensuring that the network is always available and responsive.
Reduced Downtime: Automated cell towers can detect and diagnose issues quickly, allowing them to be resolved before they cause downtime or service disruptions.
Better Network Coverage: Automated cell towers can be deployed in remote or hard-to-reach areas, providing coverage to areas that might not be accessible with traditional cell towers.
Improved Energy Efficiency: Some automated cell towers are designed with energy-efficient features, such as solar power, which can help reduce their carbon footprint and operating costs.
Faster deployment: Ascension Towers can be deployed more quickly than traditional towers, making them ideal for emergencies or areas where coverage is urgently needed.
Scalability: Automated cell towers can be easily scaled up or down to accommodate changes in network demand or coverage requirements, making them a flexible and adaptable solution for mobile network providers.
Overall, automated cell towers offer several advantages over traditional cell towers, including improved efficiency, network reliability, and energy efficiency, among others.
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