Lansing Lines: Difference between revisions

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| founder = Hummelman Lansing
| founder = Hummelman Lansing
| key_people = CEO: Emery-Julian duQuesne leCocque
| key_people = CEO: Emery-Julian duQuesne leCocque
| hq_location_city =  
| hq_location_city = Granblaix, Iliouvalia
*Chantiers Lansing: Granblaix, Iliouvalia
*Lansing Iron Horse: Tariege, Orostile
| hq_location_country = {{flag|Burgundie}}
| hq_location_country = {{flag|Burgundie}}
| location =  
| location =  
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| parent =
| parent =
| divisions =  
| divisions =  
*[[Lansing Lines#Chantiers_Lansing|Chantiers Lansing]]
*[[Lansing Lines#Lansing_Iron_Horse|Lansing Iron Horse]]
| subsid =  
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Revision as of 22:42, 6 January 2024

Lansing Lines
Company typePublic-stateowned
LLC
Industry
  • Shipbuilding
  • Standard Gauge Railway Construction and Operations
Founded1485
FounderHummelman Lansing
Headquarters
Granblaix, Iliouvalia
,
Area served
Worldwide
Key people
CEO: Emery-Julian duQuesne leCocque
Divisions

Lansing Lines was founded in 1458, Willing, in what is now Yonderre by a Gothic peasant who has joined the retinue of Joanus de Martigueux, Hummelman Lansing, the workshop was initially focused on chandelling. Hermann's nephew, Emille leLansing, consolidated the operations upon Hummelman's death in 1485, bringing the atelier into his larger riverine boatyard in Collinebourg. The consolidation worked and the chantier was soon able to get a contract to build ships for the Dukes of Yonderre. Being one of the first multi-service chantiers in the city, they did well. Their entire operation was burned down in the Great Fire of Collinebourg in 1728. Having lost everything, Henri-Eugene deMeur, the owner at the time, moved to Granblaix, in the Principality of Faramount and started a new chantier there. There was stiff competition, so he needed to find a way to stand out.

In 1730, the new chantier were contracted by the Marialanii Ularien Trading Company to build a massive ship, the largest ever built in Maritime Dericania, to bring material to the Barbary Straits colony and return with cargoes. They built the Vent du Nord, a 69 m (226 ft) ship, with 1,275 square m (13,720 sq ft) of sail yardage, that was equipped both for trade and for fighting off Kiravian merchantmen and Barbary pirates. The ship had 35 guns and was capable of carrying 200 tonnes of cargo. After two years of rushed construction, the Vent du Nord was launched in May, 1733, but the ship was observed to be top heavy. On her maiden voyage, under the watchful gaze of much of the cityfolk and even the Duke of Marialianus, a strong gust of wind caught the full yardage of the sails and heeled the top-heavy ship and the lowest gun ports started to fill with water. The ship righted and sailed on, but there was a definite list to port. Tacking, the ship caught another gust and heeled again. This time, with the water ballast in the hull as well as the new water coming in the lower gun ports, the ship started to rapidly fill with water and sink. To the astonishment and dismay of the crowd, the ship slowly disappeared into the water, until 3/4 submerged it came to rest on the seabed. The reputation of the chantier was in tatters and the masts of the ship sticking out of the harbor waters were a daily reminder of what had become known as Vent du Nord syndrome. The owner, Henri-Eugene deMeur, took the loss too hard and committed suicide by throwing himself into the bay. The company dissolved and its land and equipment were sold off to other chantiers and ateliers.

In 1754, Laurent-Girart Vaugeois deLansing, Vicomte of Teal, 5th great-grandson of Hummelman Lansing, purchased a series of ships and salvage rights with a plan to raise the Vent du Nord as the harbor had expanded and the submerged ship was impeding the newly increased traffic. He proposed a rig of two ships in tandem that would float over the Vent du Nord, a rope encircling the hull and a series of pulleys that would be used to hoist the ship up from the seabed. In order to lighten the ship, the masts would have to be removed, the canons too. The Vicomte, devised a diving bell to allow workers to be able to work on small projects. He also devised long saws to reach down under the bell to get at the masts. After 3 years of working on the plans and some trial and error the salvage mission began. It was a rocky start but after 5 years the hull was actually raised, drug out to sea and resunk 12nm off of the harbor. The Vicomte was lauded as have redeemed the Lansing family name and started a salvage operation that spanned the ports and cities of the Kilikas Sea.

In 1794, the Lansing Salvage Company bought a fledgling shipping firm and secured the monopoly on importing clover and timber from Ilánova, Kiravia. The shipping route was immediately profitable, and the fleet tripled in size over the next 20 years, to 9 ships. Throughout the 19th century, the Lansing company secured various shipbuilding and salvaging contracts with the various Maritime Dericanian companies and foreign powers. Starting in the 1910s, Lansing started to invest heavily in rail infrastructure, deciding that instead of competing with O’Shea Container Shipping, they would benefit from the land-based logistics business that O'Shea was creating. In 1917 they created a subsidiary that would eventually become Lansing Iron Horse.

Divisions

Chantiers Lansing


Military Service Ships

Model Name Specifications Image Type
Lauder Class
  • Length: 201m (659ft)
  • Draft: 10m (33ft)
  • Lifting Capacity: 125m (410ft), displacement of >20,000 tonnes
Sea Lift Ship
Maria Class
  • Length: 201m (659ft)
  • Draft: 8m (26ft)
  • Patient Capacity:
    • Intensive care wards: 80 beds
    • Recovery wards: 20 beds
    • Intermediate care wards: 280 beds
    • Light care wards: 120 beds
    • Limited care wards: 300 beds
    • Total Patient Capacity: 800 beds
    • Operating Rooms: 10
Hospital Ship
Troller Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: "Research"
N/A
Jaxson Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: Beachhead Aerial Supremacy
Beachhead Aerial Support Ship
Global Strike Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: Theater Logistics Support
Theater Logistics Ship
Bridger Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: Intra-theater Logistics Support
High Speed

Logistics Ship

Kilikas Stormer Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: Shipping Lane Clearance
Icebreaker
Pelican Class
  • Length: 50m (164ft)
  • Draft: 2m (6.5ft)
  • Purpose: Command and Intelligence Analysis
ELINT
  • Length: 110 m (360 ft 11 in)
  • Draft: 5.5 m (18 ft 1 in)
Corvette/Aviso

Lansing Iron Horse

Lansing Iron Horse, a stalwart in the realm of rail innovation, boasts a storied history dating back to its inception in 1917. Originating during a transformative period, the company initially concentrated on expanding rail infrastructure, playing a pivotal role in reshaping transportation networks across Burgundie. Its commitment extended to wartime efforts during the Second Great War, where the company shifted production lines to support military needs. Post-war, the company actively contributed to reconstruction endeavors, fortifying rail connections and reinvigorating trade routes. In 1967, Lansing Iron Horse entered into a joint venture with Armand-Ere Locomotion, aligning with the Levantine Union's economic reforms. This marked a shift to a public-private model, with the company continuing to play a crucial role in Operation Kipling and embracing advancements like containerization. The company's early adoption of barcoding mechanisms, also in 1967, showcased a penchant for innovative solutions in goods tracking.

Today, Lansing Iron Horse stands as a regional leader, operating both passenger and freight lines in Burgundie and expanding into the Audonian rail market with a planned factory in Pursat in 2035. The company's success lies in its strategic integration of artificial intelligence (AI) and advanced network algorithms. These technologies optimize network efficiency, predict maintenance needs, control train movements, and manage traffic, contributing to seamless and safe operations. Predictive maintenance systems and automated train control enhance safety, while blockchain-based logistics ensure transparency and security in freight movements. As Lansing Iron Horse forges ahead, it remains committed to pioneering excellence in rail innovation. Its legacy of adaptability and forward-thinking positions it as a trailblazer in the ever-evolving landscape of rail transportation.


History of Lansing Iron Horse

Lansing Iron Horse was founded in 1917 during a pivotal era marked by significant shifts in transportation and logistics. Recognizing the evolving landscape and the burgeoning potential of rail infrastructure, Lansing Lines strategically ventured into the land-based logistics business. In its formative years, Lansing Iron Horse focused on building and expanding rail infrastructure, playing a crucial role in the transformation of transportation networks across Burgundie. During the Second Great War Lansing Lines, and Lansing Iron Horse joined the war effort. Lansing Iron Horse shift its production lines to armored trains, hospital cars, rail guns, troop trains, and a variety of other militarized uses for their manufactories. During these years there was a frenzy of innovation and ingenuity applied to the fundamentals of rail manufacturing that the company was able to capitalize on. In the post-war period saw Lansing Iron Horse actively participating in the reconstruction efforts, contributing to the rebuilding of rail connections and the revitalization of trade routes. In 1967, Armand-Ere Locomotion and Lansing Iron Horse formed a joint venture partnership as part of the economic reforms of the Levantine Union. As a part of this effort the company was made into a public-private company with the rail-service operations becoming state-run.

Operation Kipling marked a pivotal moment in Lansing Iron Horse's history, as the company played a key role in supporting the logistical aspects of the home front of the war. The company was also able to sell many of its Second Great War-era military rolling stock to the anti-communist forces in the conflict, with upgrades and retrofits as ordered. In the Burgoignesc Metropole, Lansing Iron Horse focused on returning to its civilian roots and addressing the pressing issues of the hyper-urbanization that was occurring at the time. Also, the advent of containerization brought about transformative changes in the shipping industry, and Lansing Iron Horse embraced these advancements. The company adapted its operations to accommodate the efficient movement of goods using standardized containers, developing many specific rail cars specifically for standardized containers. It was during this time that Lansing Iron also began experimenting with barcoding their rolling stock to make goods tracking much more efficient. They were among the first in the world to adopt a barcoding mechanism and system in 1967.

Lansing Iron Horse in the 21st Century

Today, Lansing Iron Horse is a regional leader in train manufacturing and operating a number of both passenger and freight lines in Burgundie. It has announced plans to open a factory in Pursat in 2035 to expand into the Audonian rail market. Lansing Iron Horse operates a comprehensive passenger rail network that caters to both urban and intercity travel needs. High-speed rail lines connect major metropolitan areas like the Vilauristre-Port Diteaux Rail Link, and the Notrestran High Speed Line that connects Le Ax-Canbon, Stearlinge Arch, Reimont Gillete, Maloria, Granblaix, and Tariege, providing a swift and efficient mode of transportation for commuters and travelers alike. The company places a strong emphasis on passenger comfort and safety, with modern train interiors equipped with state-of-the-art amenities, ensuring a pleasant journey experience. The company's freight services play a pivotal role in facilitating the movement of goods across the Levantine Union from the bustling ports of Burgundie. Lansing Iron Horse operates specialized freight lines designed to accommodate standardized containers, aligning with the contemporary trends in logistics. This focus on efficiency has made the company a crucial partner for businesses involved in the transportation of goods, contributing to the overall economic vitality of Burgundie.

The company has established itself as a trailblazer in the rail industry by integrating artificial intelligence (AI) and advanced network algorithms into its operations. This technological transformation has propelled the company to the forefront of efficiency and safety within the Levantine Union's rail sector. One of Lansing Iron Horse's key strengths lies in its utilization of sophisticated network optimization algorithms. These algorithms constantly analyze vast datasets, including historical traffic patterns, real-time operational data, and predictive models. By doing so, the company can dynamically adjust schedules, routes, and resources to optimize efficiency. This proactive approach minimizes delays, enhances resource utilization, and ensures a smooth flow of both passenger and freight services. They employ AI-driven predictive maintenance systems to monitor the health of its rolling stock and infrastructure. These systems analyze sensor data to detect potential issues before they escalate, allowing for timely interventions and preventing unplanned disruptions. This predictive approach not only extends the lifespan of assets but also enhances safety by minimizing the risk of equipment failures. The software developed for this is so successful, it has been adopted by the Burgoignesc Security Forces in their new HERMES Collaborative Combat Network.

To enhance safety and operational precision, Lansing Iron Horse has implemented automated train control systems. These systems leverage AI to monitor and control train movements, optimizing speed, acceleration, and braking. The laws in the Levantine Union still require humans to be at the controls prepared to override the system if need be, but this optimization in conducture has increased efficiency immensely, By dynamically adjusting train behavior based on real-time conditions and potential hazards, these systems contribute to accident prevention and overall operational safety. Incorporating AI into security measures, allows Lansing Iron Horse to automated surveillance systems that can detect anomalies or potential security threats. These systems utilize image recognition, sensor data, and behavioral analysis to enhance the safety of both passengers and cargo during transit. In congested urban areas, Lansing Iron Horse employs AI-based traffic management systems to optimize the flow of trains through complex rail networks. These systems assess real-time demand, track occupancy, and potential bottlenecks, allowing for adaptive rerouting and scheduling adjustments. This level of dynamic control minimizes congestion, reduces travel times, and enhances the overall efficiency of the rail network.

See also