Sailaway Multiplayer In Depth

Multiplayer games require communication to inform each client of the position of other players. For Sailaway the communication involves also heel, dive, heading, course over ground, speed, speed over ground, state of mainsheet traveler, state of canting keel, state of foils and for each sail the angle, and 3 shape parameters.
For multi-crewed boats all the setting of trim lines are communicated as well.
Other communication involves the colors and textures of the boats and the in-game chat.
But the most crucial one is the communication of the position, speed, etc.

I believe there are 3 basic ways to handle this multiplayer communication in games:
– Send updates on positions and all other parameters as often as possible to a server and redistribute to the clients
– Make the clients communicate to each other directly using PtP communication.
– Compute everything on the server and distribute it to the clients
Sailaway has chosen for the first option.

In order to make the positions of other players on the screen as accurate as possible, the communication should occur as often as possible and as fast as possible. Many First Person Shooter games let their player’s computers send position update messages 3 to 5 times per second.

The biggest problem here is that when the number of players increases, the number of communication messages increases exponentially. What happens is: 1 player sends an update message to the server, the server sends X messages to X other players. This will get out of hand very fast:
2 players, 3x per second -> 2 x 2 x 3 = 12 messages per second
20 players, 3x per second -> 12,000 messages per second
200 players, 3x per second -> 120,000 messages per second
2000 players, 3x per second -> 12,000,000 messages per second
The capacity of the server, the bandwidth of the server connection would soon be consumed completely. And even if this would be limitless, the capacity and bandwidth of the player’s computer would become the bottleneck.

To overcome this problem players are often grouped together in “game rooms”. This way the number of players per game room remains under control. Sailaway takes a different approach, because there is only 1 game room with all players anywhere in the world online.

Another problem all games experience is internet latency. It can easily take up to 200ms or much more for a message to reach the server and from there another 200ms to reach another player. To overcome this problem game rooms are often assigned to specific servers that are located near to the players in that room.

But Sailaway uses 1 server for all players and therefor all these quickly described problems will apply and make it unplayable if nothing is done to prevent that.
In order to overcome these problems of flooding messages, server capacity, bandwidth and internet latency, Sailaway uses:
– a server that only sends messages to users that need it
– clients that compute, interpolate or compensate as much as they can without receiving input from the server
– clients that try to limit the number of messages they send out.
– clients that compensate for internet latency

 

Waves and wind

There is more than just the boat positions to synchronize in Sailaway. Since waves and wind shifts and gusts also influence the speed and behavior of the boats, it is important that these are identical on every computer as well.
Rather than sending messages back and forth to synchronize them, each computer creates it’s own waves, gusts and shifts. It uses an algorithm for this with 2 input parameters: world coordinates and time. Now if each computer uses the same algorithm and has the same input, all players will experience the exact same waves and wind.

 

Synchronized time

It is vital that the time is correct, not just for waves and wind, but it is the basis of all multiplayer communication in Sailaway. It influences the positioning of boats and determines who passes the finish line of a race first. More about that later.

Since there is no guarantee that all computer clocks run exactly on time and are correctly set up, Sailaway uses it’s own internal UTC time. Basically the time from the server is requested upon login and the player’s computer updates this time constantly so that it is always up to date.

But this will result in discrepancies between players. To eliminate these, the internal clock is updated with the server time every 5 seconds. If the difference between the internal clock and the time on the server becomes smaller, the update frequency dynamically goes down to every 30 seconds. And when the discrepancy grows the frequency increases again.

The clients sends out a time request, the server receives it and sends the current time as an answer. When the server’s time arrives at the client, it is already outdated. To compensate for this latency, the client measures the duration between sending the request and receiving the answer, divides that by 2 and adds it to the time received from the server. The bigger the duration was, the less reliable the server time is. So instead of resetting the internal clock to the new server time, the new server time only nudges the internal clock to run faster or slower. The force of that nudge depends on the reliability of the newly received server time.

Together with a few other subtle calculations this makes the internal Sailaway clock of every player to run well within a margin of -20 to +20ms from the server time.

 

Instantiating other boats

When a client receives a position update or sails update from another boat, the first thing that happens is that the boat is looked up and if it doesn’t exist yet, it is instantiated.

Before the boat is actually shown in the world, it needs:
– information about its position (send periodically by the other boats)
– information about its sails and their settings (send periodically by the other boats)
– information about its appearance (requested once from the Sailaway server)
Before version 1.1.11 the boat would be instantiated upon a position update or sail update, but it would not store that information immediately. It therefor had to wait until the next update was received before it would become visible in the world. As of 1.1.12 the instantiated boat immediately stores any information available for later use. This has a significant effect on the time it takes before a boat appears on the screen.

If there are for instance 100 boats in the neighborhood, the client would have to send 100 requests to the server. Since that would be highly inefficient, the ids of the newly instantiated boats are collected and after max. 2 seconds a single request goes out the the server to provide the necessary information about the appearance of those boats in 1 go.

The sails info is also send periodically by the other boats and contains info like which sails are raised, at what angle are they, how curved are they how far open is the top of the sail, etc.

It will take between 0 and the the max. of:
– 2 second interval at which boat info is requested
– the interval at which position updates are send
– the interval at which sails updates are send
before all the necessary info is received, but then the model of the boat is placed in the world and the user can see the other boat on the screen.

The boats are removed from screen:
– when it is out of range,
– when the user logs off,
– when it has been longer than 2.5 times the interval for boat position updates since it last received any updates.

 

Receiving position updates

Each position update contains the time it was send in milliseconds. And since the internal clocks of all clients run in sync with each other, the message contains the exact location of a boat at an exact time. But also:
– speed over ground
– course over ground
– heading
– heel
– nose dive
– lift
– has the boat capsized Y/N
– has the boat ran aground Y/N

The copy of the other user’s boat behaves like any other boat. It has a speed and a course and it travels in a straight line even if no position updates are received. It moves with the waves, it speeds up when going down a wave and slows down when it climbs a wave (this works because all waves are computed with time and location as input and since the time is synchronized, the waves are synchronized as well).

When the client receives a new update, it knows when the message was send and it knows what time it is upon receive. Together with the course over ground and speed over ground, the received position is extrapolated to a new position for the boat. This should take away any delay caused by internet latency.

Now that an exact position is known, this new position update is compared to the current position of the boat on the receiving client. This copy of the boat has been sailing since the previous update and it is likely that the computed position is not identical to the newly received position.

The position difference and also the heading difference is gradually eliminated by speeding up/slowing down/turning the boat. As of version 1.1.11 this done by honoring the physical mass of the boat so that the correction will look as natural as possible.

 

Sending position updates

Each boat sends out it’s position every x seconds. This frequency is dynamic and varies between 1 and 10 seconds. The frequency increases when:
– other boats are in the neighborhood
– the distance to the nearest boat is smaller
– the boat accelerates or decelerates
– the boat changes course
The frequency decreases when there are a great many boats in the neighborhood to prevent flooding the clients with updates from all these boats.

Half the updates contain only the latitude, longitude, COG and SOG to minimize the bandwidth used. The other half of the updates also contain heel, nose dive, lift and a status whether the boat has ran aground or has capsized. When the boat is changing course a full update message is forced every time.

The messages are send to every boat within a rectangle of 1.2 degrees longitude and 0.8 degrees latitude.

 

Passing parameters of sails

Every boat sends out a summary of the parameters of each of it’s raised sails. This enables the other clients to update the visual appearance of the boat. It contains per sail:
– how far the sail is raised
– how much the sail is reefed or furled
– the angle of the sail or boom
– the depth of the curve of the sail
– the position of the curve of the sail
– how much the top of the sail is pulled close
– how intense the sail is flapping in the wind
The last one is not really a sail related parameter, but it is passed to other clients because it affects the appearance of the boat.

The message also contains:
– the position of the traveler
– angle of the keel
– position of the foils

The update is always for all the sails that are (partially) raised and it is send every 30 seconds.
This interval is rather big, but as soon as one of these values changes the interval is gradually reduced to a minimum interval of 1 second.

The messages are send to every boat within a rectangle of 1.2 degrees longitude and 0.8 degrees latitude.

A boat can not be shown on the screen of another user until this message is received at least once.

 

Multiple players on 1 boat

The computers of all online crew members compute their own speed, heel, etc. which is fine for the periods in between updates from the server, but only 1 client can determine the actual position and other parameters of the boat. This client is identified as the skipper. There can always be only 1 skipper. Usually this is the owner of the boat, but when he is not online a random other crew member will immediately take over. If the current skipper doesn’t log off correctly, the game will still assign a new skipper after a while.
The skipper has a few more authorizations than the other crew members. He can change the skills level (unless this is determined by the race or challenge), the auto navigation and the settings for offline sailing.

Only the owner of the boat (when online he is also the skipper) can change the appearance of the boat and can edit waypoints.

The skipper will send periodic position updates for the boat, that are received by other boats, but also by the crew members. The position updates are used by the crew’s computers to correct the position, heading, heel, dive, lift of the boat. These corrections will to be minimal since all computers use the same program, the same wind, the same waves and the same time. Any corrections are implemented with respect to physics and the mass of the boat.

Any crew member can change a control or steer the boat. But when they do, the control first needs to be locked. This lock message is broadcasted to the other crew members to notify them that the control or the helm is currently locked and prevent them from trying to pull the same line or steer at the same time.

When the control is locked, the client will send new settings to the rest of the crew while the line is pulled, the foils are extended or the rudder is turned. When the control is released, the control is made available again by a release message to the rest of the crew.

The skipper’s system will periodically (every 45 seconds, but never less than for 4 seconds after someone changed a control), send out a full set of all the control settings for the boat to the crew. This way it is guaranteed that all crew members share the same settings. The update also includes all sit positions of the crew members, the auto navigation settings, the skills level and the offline sailing mode.

Whenever a crew member comes online, the data for the boat is pulled from the Sailaway database. But as the crew is constantly changing settings, this information may be a bit behind. As soon as the current skipper of the boat receives a message that a crew member came online, a full parameters update, including the most recent position of the boat is send to the crew.

 


Adding a Lighthouse

To test the new World Builder tools for Sailaway, I took it on me to create a worthy replica of the famous Fastnet rock complete with it’s lighthouse. These World Builder tools will be part of the upcoming release of Sailaway and will be available for all. Once published, the edits made with this tool will be visible for all sailors. Here’s my report on how I made Fastnet Rock and the Fastnet Lighthouse:

World Edit

All changes to the world in Sailaway are wrapped up in a package called a “World Edit”. This World Edit defines a rectangular area in which the actual edits will take place. The function of the World Edit is to encapsulate the individual changes to the world and to make it easier for the Sailaway system to dynamically load these edits as a boat sails by. The game only has to check these rectangular areas to know which ones should be loaded into memory.

Visible distance

So the first thing to do is create such a World Edit and define the rectangular area. It is best to keep this area as small as possible to prevent people from having to download edits that they won’t be able to see anyway. And Fastnet Rock itself is rather small, so you’d think the World Edit region can be small as well. But not in this case. The lighthouse is a tall structure and can be seen from a very big distance. The distance at which Sailaway renders any land is currently 20 kilometers. (may be we should extend this a bit). When the area of the World Edit touches this circle of 20 km, it will be loaded. The lighthouse is 48 meters tall and can be seen at a distance of 16 miles or 29.5 kilometer. And this means that the World Edit has to have a size of 9.5 x 2 = 19 km square. This roughly equals 10 minutes latitude by 16 minutes longitude. The maximum allowed size is 1 by 2 degrees, so we are well within the limits.

The lighthouse has a range of 27 nautical miles which is more than those 16 nm. This is due to refraction of the light by the atmosphere. But luckily the Sailaway system that places buoys and fixed lights will take care of this. So there is no need to extend the World Edit rectangle any further. The lighthouse won’t be rendered, but the light will be visible anyway, since this is already defined in the database of nautical objects that Sailaway uses.

Terrain height and sea depth

Screenshot of the mapFirst I am going to edit the terrain heights, because the entire island is nowhere to be found in Sailaway and the ocean seems to be 34 meters deep where FastnetRock should be.

I found this section of a nautical map of the region and will use that to edit the seafloor. I clicked on “Edit Terrain Heights” and in the empty list of terrain edits, I click the + button and adjusted the area. It’s always a good idea to make the area’s for the edits as small as possible. Both to prevent unnecessary and slow downloads and to increase the resolution of your edit.

 

Nautical chartEach edit will have 512 x 512 height samples regardless of the size of the area. So a smaller area will allow for more detailed terrain than a large area. If you are editing a port or an island it is best practice to add 1 terrain edit for the entire region in which you adjust the ocean floor and maybe the height of the terrain. And then add one or more smaller, high detail terrain edits to make the important bits. In this case I will add only 1 terrain edit because the high detailed rock is an object I modeled in Blender

Editing the water depth

Current Sailaway map

The current map doesn’t look anything like the real one. I am going to make it roughly the same as the nautical chart and to do this, the current shallow area has to be removed.

I do this with the tool “Level to” and set the depth to -57 meters, which is roughly the depth of the surrounding area. (the image is lighter blue than the previous, but it is actually deeper than it was. This is due to the dynamic map coloring to show maximum detail.)
The center area is left alone, because that will be raised anyway.

 

Changed water depths

Next up is copying the depth soundings from the chart to the Sailaway map. I use the “Level to” tool, set the accurate depth, pull the effect strength slider to the right for 100% effect and click once in the map to make the depth match the chart.
It’s easiest to start from the deepest level with a big brush and work towards the shallower depths with a smaller brush.

The sea bottom becomes a bit polka dot, but there is not much you can do about that. Except for using the “Smoothen” tool a bit.

 

Importing 3D model

In the tool “3D models’ I added a new object for the island, placed it roughly on the spot where the default lighthouse is on the map (I’ll adjust the exact location later) and pressed “Select Model”. Of course there is no island in the list of models yet, so I added a new one and imported my 3D .OBJ model of Fastnet Rock that I made in Blender. I manually selected the texture I created for it, because the importer does not import the .MAT material file.

Importing the lighthouse

The lighthouse itself is imported in the same way. But this model has 2 materials, because the light needs to shine at night. This 3rd material uses the shader “Self Illuminating Shader”. When this model is placed in the world, the light will be always on. When connected to a nautical object, it will replace that object and uses it’s light signature. To add an actual light to it, I set the light position with the sliders at the bottom. This will add the ugly Christmas star that you see, but that’s only in the editor so you can see where the light is situated.

Sailaway importer showing Fastnet lighthouse

Replace existing light

Select an existing nautical object to replaceAnd finally I place them both in the world by adding the 3d objects to my World Edit. It took a little tweaking to position them correctly. To replace the existing fixed light with this new lighthouse, I used “Replace nautical object” and select the lighthouse in the list. The lighthouse has started flashing now.

 

And this is the end result. When the new update for Sailaway is published, this lighthouse and all other edits to the world will be visible for everyone who sails in the area.

 

 

 

 

 

 

 

 

 

 

 


World Editing

Ideally the Sailaway world would be an exact copy of the real world, with the same water depths, the same landscape and the same buildings and vegetation. Of course this is impossible. The world is simply too big, the Sailaway Team is simply too small, and the available information is simply too scarce. We’ve decided to make more use of the enormous expertise that is present among the Sailaway sailors and intend to create a World Editor. This is what I am working on right now. I’d like to share my ideas with you and appreciate your input in case I forgot something or if you think a different approach would be better.

The World Editor will be a separate program in WebGL so it will run in your browser. Embedding it in the Sailaway executable would make the program and the user interface overly complex. The downside is that it will be an extra program to maintain and support.

There will be 3 different types of edits:
– terrain heights and water depths
– terrain texturing
– placing objects

World Edit Object

All edits are encapsulated by a world edit object. This world edit object will contain the id of the user, the longitudes and latitudes of the edited world section, whether the edit is published or not and a publication timestamp. If there are multiple world edit objects for the same area, they will be applied in the order of publication.

To allow 2 people working in the same area on different world edit objects at the same time, new height values are only stored when they have actually been changed with respect to the original height. This means you can work in the same region as long as you don’t edit the exact same location, because then the one published last will determine the terrain height for that position.

Of course there is the danger of someone pushing out weird shaped islands, drawing their name in the terrain, or making unintended errors. If this happens, you can disable those edits in the stack. If it was done intentionally, notify us and we’ll address the user to prevent future incidents.

Terrain Heights

The terrain heights are stored in a grid format that uses 2 bytes per sample. Since the range is -10000 to +10000 meters, the accuracy would be insufficient for detailed editing. For this reason Sailaway uses an algorithm where steps are smaller around 0 and bigger at greater depths/heights.

The current Sailaway terrain heights have a resolution of 30 meters. The world edit object will allow much higher resolutions, but the download size would become immense if even a small region like “The Netherlands” would be stored in a resolution of for instance 1 meter. It would mean a download size of 250 km x 150 km x 2 bytes = 75 GB. To prevent this, you can use multiple edits within the same world edit object with different scales. The best way to edit an area would be to start at a big scale and then create separate height edits for smaller regions where you need a high resolution. Here’s an example for the port of Rotterdam.
First you edit the whole region N51.91, E3.95 to N52.05, E 4.175. This region measures 0.095 degrees vertical and 0.225 degrees horizontal. The fixed grid size is 512 x 512 samples, which means 0.0001855 degrees by 0.0004395 degrees per height sample or roughly 22 by 22 meters.

This would show large saw teeth in the landscape at close distance.

To prevent this the next edit within this same world edit object could cover a smaller region.


In this case N51.955, E4.025 – N51.966, E4.055. At 512 x 512 samples, it would provide a resolution of roughly 2.5 meters. And you can go much smaller than that if you want to. The high resolution edits are only downloaded by users, when they are sailing at a close enough distance to see that amount of detail.

 

Terrain Texturing

In texture mode you can paint the terrain by using a blend of predefined textures that are optimized to repeat without showing any obvious repetition. The edits are again stored in a grid of 512 x 512 tiles. The region that is covered by that grid is determined by you. This way you can quickly paint an entire desert, and create additional detail by adding world edit objects that only cover a specific beach. This works the same way as described under the Terrain Heights section.

The file format uses 1 byte per tile. Each tile can display up to 16 different textures, blended together by alpha in 16 steps. 16 x 16 = 256 = 1 byte. If the total alpha of all 16 textures adds up to less than 1, the original terrain texture that Sailaway uses + earlier entries in the edit stack will shine through.

 

Placing Objects

Right now Sailaway reads the OpenStreetMap database to place buildings in the world. Plus we added some iconic buildings and structures at various locations ourselves (like the Golden Gate Bridge). To extend this and also allow for the creation of docks, jetty’s, dikes, sheet piling, trees, etc. it will be made possible to upload static 3D models. The required format will be .OBJ, which is very simple and straightforward and supported by most 3D editors. Each model will have only 1 material for performance reasons and .MAT files are therefor not supported. Instead, you will be able to upload a texture and/or specify a color in the editor. Transparency will be clipped by a cutout shader.

After uploading an object, you specify if it is a single instance object (like the London Tower Bridge) or if it can have multiple instances (for instance a tree). If it’s a multiple instance object, it will automatically become available for everyone to use after it is published. Once someone else uses it, you can no longer upload a new version of the same object. Placing the objects in the world is done by placing them on the map and adjusting the scale, rotation and color.


Selecting trim lines

The internal routines that allow the user to select a trim line have recently been rewritten in version 1.0.07. This article describes how it works now.

How hard can it be to click on something with your mouse right? This is done in every website or game. Clicking on buttons, clicking on items. Easy, out of the box functionality.

Selecting a trim line
Selecting trim lines in rough conditions

Alas, not in Sailaway. The boat is constantly moving, the trim lines are thin, close together and even overlapping each other sometimes. Using the default game engine technology to click on an object that is underneath the mouse pointer would make it really hard to select a specific line that is only a few pixels wide while sailing on a stormy sea.

Instead, a special routine is needed that figures out which line or interactive object is underneath the mouse pointer and highlight it. This means a lot of computations and therefor the whole process needs to run in a background thread to complicate things even further.

Before the thread is started, the location of the mouse pointer, the transformation matrices of the camera, the boat and each trim line is stored, because these are is likely to move during the time it takes to do the background computations.

First an imaginary ray is drawn from the mouse pointer in the viewing direction. Since direct hits on trim lines on a stormy sea are difficult to accomplish, we need to compute the distance between the trim line and the imaginary view ray.

A trim line is not a straight line in the mathematical sense. It is a mesh made up out of several triangles. For each triangle the distance between the camera and the center of the triangle is taken. This distance is then used to take a single point on the imaginary view ray. Next, the distance between that point (that is directly underneath the mouse pointer at the same distance as the trim line triangle) and each of the 3 sides of the triangle is computed. This is done for all the triangles of the trim line to find the closest distance.

Each line stores it’s own “under the mouse pointer” weight value which is gradually decreased every time the routine is started and increased with the reverse distance to the cursor. The closer the distance of the trim line to the imaginary view ray, the higher this weight value becomes.

After all trim lines have been processed this way, all of them have updated weight values. And all the routine has to do now is highlight the trim line with the highest weight value.

Because of this approach, trim lines no longer need to be exactly targeted by the mouse to light up and there is no absolute true or false hit flag anymore. All trim lines are evaluated and the one that has been closest to the moving mouse pointer on the moving boat during the past few computation rounds is selected.


Fast and smooth maps

Many of you may remember how the map would sometimes take a while to load or leave a white area while you were zooming and panning around. This was due to a series of downloads, data handling and image processing in a large number of simultaneous worker threads. One of the extra complexities was the enhancement of the contrast between deep and shallow water when the map was moved around.

The entire process has recently been redesigned. And here’s how it works:
The maps of Sailaway are not stored as 2D maps but as tiles with 900 by 900 height samples of the surface of the earth. Each tile is 0.25 by 0.25 degrees. These tiles are used to generate the terrain in the game and to deduct the map image.

The earth is 360 x 180 degrees, which means 360 / 0.25 x 180 / 0.25 = 1,036,800 tiles. If someone would zoom out to view the entire earth, roughly 1 million tiles would have to be downloaded and converted into a giant map image. To prevent such madness the data is also stored in copies with a lower resolution where 1 tile measures 0.5, 1, 2.5, 7.5, 22.5, 45, 90 and 180 degrees. When slowly zooming in from world size down to a detail of a specific port, all those levels are loaded and processed one by one, starting at the highest level of 180 degrees per tile down to the deepest level of 0.25 degrees per tile.

You can imagine this is a lot of data to download at run time and to increase the speed a bit we packed the top 6 levels of 2.5 – 180 degrees with the game, which is why the initial download when installing the game is somewhat big.

When you view a section of the map, it could be that you are looking at 1 tile, but as you pan the map, you will encounter a corner of that tile. Instead of 1 tile you are now looking at the 4 tiles that are located around that corner. In the old map window, we’d move 4 textures around behind the viewing rectangle when you were panning the map. In the new map window there are 4 static images layered on top of each other. Each will have the height map data of a single tile. If a pixel is outside the scope of the tile, it becomes transparent, allowing the image beneath it to show through. To the viewer, the 4 layered images appear as a single image that covers the viewed area entirely. This means that the conversion from height map data to a visual image (4 images) is now entirely done inside a shader and no longer processed in advance by the CPU.

Internal image layers to assemble the map
Map layers in Sailaway

Loading map tiles from the server is a slow process. Loading it from a local cached file is faster, but still not instantly. This means that the visible map will be loading at times when the user zooms in or pans around because the loader threads can’t keep up. Previously this would sometimes give white areas. In the new maps, there are 3 levels (of 4 tiles) and 1 base level (of 2 tiles) displayed all the time.
Basically this is a stack of layers with increasing resolution that each can transfer height map data into an image and may or may not be transparent to show the lower resolution beneath it. This way, the map may be blurry while a high resolution layer is loading, but it will never be white.

Bay of Biscay nautical map
Bay of Biscay zoomed out

Finally the contrast between deep and shallow water needs to be optimized. When you are viewing deep ocean together with a shallow coastline, the dark blue of the deep ocean may represent a depth of 4800 meters and the light blue of shallow water may represent a depth of 150 meters.

Nautical map zoomed in on Brittany
Brittany zoomed in

But when you zoom in on the coastline, the colors change. The deepest water is now 170 meters and the shallow water 0 meters. Previously the whole map image had to be recomputed in a background thread on the CPU. With the new map window all that happens is that new values for the deepest and shallowest point are passed to the shader. These 2 parameters are set every frame, which allows for the nice gradual contrast enrichment effect that can be seen now.

The cool thing about all this is that it took only a week to code, test and optimize this all, but it took a few months before the idea to use a special shader instead of CPU image processing to appear and evolve in my head. That’s game development: You are pushing to get something done in time, which then sort of works but is not optimal. And then later on when you take some distance and look at the same problem from a different perspective you see how you should have build it in the first place. Usually there is no time or budget for a full rewrite, but Sailaway is my passion and it fully deserves a little extra effort every now and then.


Weekend Races – In and Out of the Bahía Blanca in Argentina

Hello Pioneers,

Finally here are this weekend’s races, sorry for the wait!

We love hearing about what you’re up to, let us know how your race is going on the forums or on twitter @SailawayWorld!

 

Long Race

Bahía Blanca Long Race

Saturday 9th December – 18:00 UTC / 20:00 CEST / 11:00 PDT / (Sunday 10th) 03:00 JST
Est Distance: 125 NM
Est Time: 25 hours
Weather report:⛅ More detail[on.windy.com]

A race around the “White Bay” near the important port of Bahía Blanca in Eastern Argentina.
Badge:

 

Medium Race

Isle of White Medium Race

Sunday 10th December – 12:00 UTC / 14:00 CEST / 05:00 PDT / 21:00 JST
Est Distance: 15 NM
Est Time: 3 hours
Weather report: ⛈️ More detail[on.windy.com]

A big storm is heading into Europe and we’re trying to get to the safety of Southampton harbour before it gets too bad!

 

Short Race

Chittagong Short Race

Sunday 10th December – 04:00 UTC / 06:00 CEST / (Saturday 9th) 21:00 PDT / 13:00 JST
Est Distance: 5 NM
Est Time: 50 mins
Weather report: ⛅ More detail[on.windy.com]

This week we’re in near the large Bangladeshi port of Chittagong.

Enjoy and safe sailing!

The Sailaway Team

This Weekend’s Races – Out In The Open Sea

Hello Pioneers,

Here are the weekend races!

This week’s long race is out in the Pacific Ocean with no land to help guide you – as ever, keep an eye on the weather and see if you can spot an advantageous route!

 

Long Race

South Pacific Long Race

Saturday 18th November – 18:00 UTC / 20:00 CEST / 11:00 PDT / (Sunday 19th) 03:00 JST
Est Distance: 155 NM
Est Time: 31 hours
Weather report:☀️ More detail[on.windy.com]

A race in the middle of nowhere with no land to guide you. Watch out for the big waves and keep an eye on the weather!
Badge:

 

 

Medium Race

Insel Fehmarn Medium Race

Sunday 19th November – 12:00 UTC / 14:00 CEST / 05:00 PDT / 21:00 JST
Est Distance: 30 NM
Est Time: 6 hours
Weather report: ☁️ More detail[on.windy.com]

A longer race this week around the German island of Fehmarn. The wind is supposed to die down a bit as you go but have your reefs at the ready.

 

 

Short Race

Rapu-Rapu Island Short Race

Sunday 19th November – 04:00 UTC / 06:00 CEST / (Saturday 18th) 21:00 PDT / 13:00 JST
Est Distance: 5 NM
Est Time: 50 mins
Weather report: ☀️ More detail[on.windy.com]

This week we’re off the coast of the beautiful island of Rapu-Rapu in the Philippines.

 

Please remember that Sailaway is in Early Access and you may experience bugs during races. We’re doing our best to address any reported issues, but some take longer to fix than others.

Share your progress on Twitter and Facebook, and the Steam Forums – we’d love to hear what you think and how you got on!

Enjoy and safe sailing!

The Sailaway Team

This Weekend’s Races – Find The Wind To Tripoli!

Hello Pioneers,

Here are this weekend’s races!

 

This week’s long race is taking place across a tricky weather system so make sure to look at how the wind will change to keep yourself moving (try using windy.com, the link is below) – the shortest route is not always the fastest.

 

Long Race

Tripoli Long Race

Saturday 11th November – 10:00 UTC / 12:00 CEST / 03:00 PDT / 19:00 JST
Est Distance: 185 NM
Est Time: 27 hours
Weather report:☀️ More detail[on.windy.com]

A tricky weather front is moving between Malta and Libya so do your homework on what’s going to happen or risk being stuck in the doldrums!

Badge:


 

Medium Race

Samoa Medium Race

Sunday 12th November – 04:00 UTC / 06:00 CEST / (Saturday 11th) 21:00 PDT / 13:00 JST
Est Distance: 15 NM
Est Time: 3 hours
Weather report: ☁️ More detail[on.windy.com]

A Z shaped course with two upwind sections, time to get your tack on!

 

Short Race

Houston Short Race

Sunday 12th November – 20:00 UTC / 22:00 CEST / 13:00 PDT / (Monday 13th) 05:00 JST
Est Distance: 5 NM
Est Time: 50 mins
Weather report: ☀️ More detail[on.windy.com]

This week we’re in the Gulf of Mexico, off the coast of Houston, Texas.

Please remember that Sailaway is in Early Access and you may experience bugs during races. We’re doing our best to address any reported issues, but some take longer to fix than others.

Share your progress on Twitter and Facebook, and the Steam Forums – we’d love to hear what you think and how you got on!

Enjoy and safe sailing!

The Sailaway Team

Weekend Races – Norwegian Fjords

Hello Pioneers!

Here are this weekend’s races – as requested we’ve made the long and medium start and finish lines twice the width to fit you all in, let us know what you think!

Long Race

Nesoya Island Long Race

Saturday 30th September – 10:00 UTC / 12:00 CEST / 03:00 PDT / 19:00 JST

Est Distance: 115 NM

Est Time: 23hours

Weather report (on Windy.com)

A race along the coastal archipelagos of Norway. Watch out for the wind changing, the fastest route will change as time moves on.

 

Medium Race

Îles Kerguelen Medium Race

Sunday 1st October – 04:00 UTC / 06:00 CEST / (Saturday 30th) 21:00 PDT / 13:00 JST

Est Distance: 15 NM

Est Time: 3 hours

Weather report (on Windy.com)

A tricky race through the islands surrounding the Kerguelen Islands, one of the most isolated places on the planet.

Short Race

Vancouver Short Race

Sunday 1st October – 20:00 UTC / 22:00 CEST / 13:00 PDT / (Monday 2nd) 05:00 JST

Est Distance: 5 NM

Est Time: 50 mins

Weather report (on Windy.com)

This week we’re in the famous Canadian city of Vancouver.

 

Share your progress on Twitter and Facebook, and the Steam Forums – we’d love to hear what you think and how you got on!

Enjoy and safe sailing!

The Sailaway Team

Weekend Races – Challenge yourself in the 32 hour race to Eureka or try one of these three short races

Hello Pioneers!

Here are this weekend’s races, complete with weather and wind forecasts! These races will appear in the main menu when you launch Sailaway.

Remember, if you don’t want to sail alone, you can look for a crew in the Multiplayer Forum, there are plenty of sailors looking for crew members or boats to sail with. Perhaps some of you more experienced sailors could team up with newbies and spread the knowledge?

 


Long Races

 

Eureka Long Race

Saturday 20th May – 19:00 BST /11:00 PDT / 20:00 CEST
Est. Race Distance: 195NM
Est. Race Time: 32 hours
Boat: Sailaway Cruiser
Weather report: ⛈️ https://on.windy.com/2at4

Race from San Francisco to the City of Eureka. There’s meant to be a big storm so pack your waterproofs!

 

Short Races

 

Okinawa Short Race

Sunday 21st May – 05:00 BST / 21:00 PDT (Sat 21st) / 06:00 CEST / 13:00 JST
Est. Race Distance: 4NM
Est. Race Time: 30mins
Boat: Mini Transat
Weather report: ⛅ https://on.windy.com/2art

Sail your hardest off the shore of Okinawa.

Linosa Island Short Race

Sunday 21st May – 13:00 BST / 05:00 PDT / 14:00 CEST
Est. Race Distance: 4NM
Est. Race Time: 30mins
Boat: Mini Transat
Weather report: ☀️ https://on.windy.com/2arr

Enjoy the Mediterranean sun near the beautiful island of Linosa.

Havana Short Race

Sunday 21st May – 21:00 BST / 13:00 PDT / 22:00 CEST
Est. Race Distance: 4NM
Est. Race Time: 30mins
Boat: Mini Transat
Weather report: 🌤️ https://on.windy.com/2arl

Take on your friends off the coast of Cuba.

Share your progress on Twitter and Facebook, and the Steam Forums – we’d love to hear what you think and how you got on!

Enjoy and safe sailing!

The Sailaway Team

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