The WLN10 Smart with one NMEA 0183 Input/Output is available for simpler systems or if you already have a mutliplexer, while our SeaTalk to NMEA interface can also be used to offer SeaTalk 1 connectivity or our iKonvert gateway for NMEA 2000 data.
I already have a wifi router on board – can I connect the WLN30 Smart to an existing network?
Yes! You can program this through the web interface so you just have one wifi network on board with the WLN30 linked directly to that as a client. This works well with Furuno WiFi radar installations
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Easily add a Wi-Fi Hotspot on-board to share NMEA data wirelessly with mobile devices.
The new WLN30 Smart NMEA 0183 to WiFi gateway from Digital Yacht. Integrate your boats GPS, AIS and instrument data with your smartphone or tablet, allowing the latest apps to use real time information for maximum functionality.
Built-in Multiplexor - 3 Inputs + 1 Output + WiFi
The new WLN30 has three NMEA 0183 Inputs and one NMEA 0183 output, which can be programmed through its simple browser interface to operate at 4800 or 38400 baud rates. Data received on the three inputs is multiplexed together and transmitted to any wireless devices connected to the WLN30’s wireless network. The NMEA 0183 output can be configured in one of two modes:
Compatible with most modern navigation apps and software
The Digital Yacht WLN30 Smart creates a secure, password protected, local Wi-Fi network which allows AIS and GPS data to be sent to both iOS and Android apps wirelessly. If you already have a WiFi network onboard, the WLN30 Smart can connect to that network. Compatible with many apps such as:
Easy Setup with a Web Browser
This new version of the WLN30 can now be programmed through its simple browser interface for NMEA 0183 data at 4800 or 38400 baud rate. Use the browser on any device to logon to the IP address and you can set baud rate, SSID and password. No complicated programming or special apps or software. Through the web interface, you can also view NMEA data received for easy fault finding of connected equipment.
TCP and UDP for Multiple Connections
The WLN30 Smart supports both TCP/IP for maximum compatibility and UDP for multiple connections. You can use a PC at the chart table and an iPad on deck. It’s also bidirectional so apps can control an autopilot if this function is available.
WLN30 Smart Quick Start Guide V1_01 EN (464 Kb) - Download
WLN30_Smart_Guia_de_Inicio_Rapido_V1_00 ES (572 Kb) - Download
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How to interface our wln10/wln30 to your navigation system.
Find out how to wire our NMEA to WiFi server WLN10 / WLN30 to your navigation system (GPS, Chart plotter, Fish Finder, AIS, etc.). WLN10 and WLN30 both have NMEA 0183 interface.
You can also use the same wiring diagram to connect your navigation system to the NMEA 0183 input of our AIT3000/AIT5000.
Search the brand and part number of your system and you will find wiring diagrams which explain how to connect our NMEA to WiFi server to your system.
If this list does not include your navigation system, please contact us.
AIT1500, AIT2000 and AIT2500 AIS transponders from Digital Yacht do not have a WiFi interface. By interfacing a WLN10 or WLN30 to one of these AIS transponders, AIS and GPS data can be received in real time on navigation apps & software.
It is a simple two wire connection between the AIT and WLN10. The Red(+) and Black(-) wires on both the AIS and WLN10 need to be taken to the boat’s 12v or 24v supply – we recommend on the same circuit/breaker/switch.
In the wiring diagram below, there is a picture of the AIT2000 but the connection is similar for all our AIS transponders (Orange + and Brown – of the AIS must be connected to the Yellow + and Green – of the WLN10/WLN30):
B&G instruments have been produced for many years and there are too many different ranges and models to cover every possible system in this post. Most B&G systems since the 1980s will have an NMEA0183 Output somewhere in the instrument network.
Below is a wiring diagram for the Hydra 2000 range, but other B&G ranges will be slightly different and you should consult the instrument manuals or speak to an electronics dealer that is experienced in B&G systems before connecting our WLN10 or WLN30 unit.
The B&G Zeus range of MFDs have just one NMEA0183 Port to connect the WLN10 or WLN30.
The port must output and input data at the same baud rate, so if you already have an AIS connected to this port then you will need to reconfigure the WLN10 baud rate to 38400 baud.
The EM-Trak AIS transponders have two NMEA 0183 interfaces. They have a high speed port which operates at 38,400 baud (Port 1) and a low speed port which operates at 4,800 baud.
We will connect the WLN10 or WLN30 to the Port 1 (high speed) and make sure the WLN10 NMEA interface is set at 38,400 baud.
You can connect the B100, B330, B350 and other Em-Trak AIS receivers & transponders to the WLN10 or WLN30 using the bare wires on the Power/Data cable of the AIS.
Each Em Trak AIS transponder or receiver transmits the AIS data over the Brown (+) and Blue (-) wires:
The Furuno FCV range of salt water Fish Finders all have an NMEA0183 output that can drive our WLN10.
The FCV585, FCV587, FCV620 and FCV627 all share the same wiring details for the Power/Data cable and the wiring diagram can be seen below.
It is important that you check that the Depth and GPS sentences are turned ON in the Installation>NMEA menu.
The GP1650F and GP1850F were popular salt water echo sounders, particularly in the US and have subsequently been superseded by the GP1670F and GP1870F units that only have an NMEA2000 interface (needs NMEA 2000 to WiFi server NavLink2 for those units).
Both the GP1650F and GP1850F have an NMEA0183 output that our WLN10 or WLN30 can be connected to as shown by this wiring diagram:
There have been 4 generations of Furuno NavNet Multifunction Display units and all models feature one or more NMEA0183 ports that can be connected to our WLN10 or WLN30.
With so many different models, which are often installed in large networked systems, it is difficult to give a general purpose wiring diagram and we recommend you contact your local Furuno dealer for more information. However, any NMEA0183 Output port can be configured to output the DPT depth message and GPS position messages.
It should be noted that Furuno refer to their NMEA0183 Outputs as TD (Transmit Data) and use “H” and “C” to denote the signal polarity where H = “Hot” (+ve) and C = “Cold” (-ve). Also all of the NavNet units have a menu for selecting which NMEA0183 Sentences are output, so make sure the Depth and GPS sentences are turned on for the Port you are using.
Garmin ais600 and ais800.
Garmin’s 400S and 500S series of small combo plotter fish finders (S denotes built-in Fish Finder) all have two NMEA0183 ports and are very easy to interface our WLN10/WLN30 to.
The wire colours of the Power/Data cable are consistent across every model in the 400 and 500 series and a wiring diagram.
The AIS transponders AIS600 and AIS800 from Garmin have both NMEA 0183 and NMEA 2000 interfaces.
You can connect the AIS600 or AIS800 to the WLN10 or WLN30 using the bare wires on the AIS600 or AIS800 Power/Data cable.
The Garmin echoMAP 40S, 50S, 70S and 90S units all have at least one NMEA0183 port that our WLN10/WLN30 can be connected to. The smaller 40S range and latest 90S range only have one NMEA0183 Port but the 50S and 70S ranges have two ports.
Some of the units are designated “dv” and feature the DownVu sonar, while units designated “sv” have the SideVu Sonar, but in terms of connectivity all of the units are the same.
It should also be noted that the latest GPSMAP 547 and 741 units have the same two port configuration and wiring as the 50S and 70S ranges.
All Garmin MFDs have at least one NMEA0183 Output for connecting to our NMEA to WiFI server Smart WLN10 or WLN30.
The 3000 series has two NMEA0183 Outputs.
The 4000, 5000, 6000 and 7000 Series all share a common Power/Data Cable that has two NMEA0183 Outputs.
All of the latest series of models i.e. 1000, 7400 and 7600 share a newer common Power/Data Cable design that has two NMEA0183 Outputs, but different wire colours than the older Power/Data cables.
The GPS160, a high performance positioning sensor using GPS, Galileo and Glonass satellite systems for exceptional positioning accuracies and redundancies (sub 1m).
Here’s the wiring diagram:
Not all Humminbird products have an NMEA0183 Output suitable for connecting our WLN10 or WLN30 to, but the 700, 800, 900 and 1100 series all have an NMEA0183 output that transmits Depth and GPS data. Also some of the other Fish Finders with an internal GPS also have an NMEA0183 Output such as the 161, 363 and 383c Combo units.
You will need the optional AS-HHGPS Cable Kit (P/No. 700030-1) that connects to the rear of the unit.
Make sure that the NMEA Output is set to ON in the Advanced Setup menu of the Humminbird unit.
Here is a wiring diagram showing how to connect our WLN10 or WLN30 to the AS-HHGPS cable.
The Humminbird Matrix family of Fish Finders all feature an NMEA0183 Output but you need to have the AS-HHGPS cable kit (P/No. 700030-1) that connects to the rear of the unit. This cable kit is available as an optional accessory.
Make sure that the NMEA Output is set to ON in the Advanced Setup menu of the Humminbird Matrix unit.
Here is a wiring diagram that shows how to connect the AS-HHGPS cable kit to the WLN10 or WLN30:
The Lowrance Elite 4 & 5 Fish Finder can be configured to have one differential NMEA0183 Port (RS422 mode) or two common ground NMEA0183 Ports (RS232 Mode). You can connect the WLN10 or WLN30 in either mode .
The port must output and input data at the same baud rate, so if you already have an AIS connected to this port then you will need to configure the WLN10 baud rate to 38400 baud.
The Lowrance HDS5, HDS7, HDS8 & HDS10 Fish Finder can be configured to have one differential NMEA0183 Port (RS422 mode) or two common ground NMEA0183 Ports (RS232 Mode). You can connect the WLN10 or WLN30 in either mode .
Here is the wiring diagram:
The Lowrance HDS range of Multifunction displays is on its third generation and all units feature a single NMEA0183 Port that our WLN10/WLN30 can connect to.
Here’s how to interface the WLN10 to a Navicom RT450, RT550 or RT650 VHF radio.
Here is the wiring diagram :
Navicom rt750 & rt1050.
Here’s how to interface the WLN10 to a Navicom RT750 or RT1050 VHF radio.
Although the marine business of Navman which was sold to the Brunswick Group and then ultimately became part of the Navico Group, is no longer producing products, there are still a lot of boats with Navman Instruments and Fish Finders onboard.
As a general rule, most Navman products had an NMEA0183 output which was usually the White wire of the Power/Data cable. However, before purchasing or installing a WLN10, we recommend that you check your units manual to be sure that it has a suitable NMEA0183 output and which wire colour the NMEA Output is on.
Here is a wiring diagram for the popular Navman Depth 3100 instrument.
Most of the latest Raymarine a, c and e Series Multi-Function Displays have an NMEA0183 Output that can connect to our WLN10 or WLN30.
The smaller a6 and a7 models (a65, a67, a78, etc.) do not have an NMEA0183 Output and you would need to use our NMEA 2000 to WiFi server NavLink2 with these products.
For the rest of the A, C and E Series units, here is the wiring diagram:
The A50D, A57D and A70D units all feature a built-in depth sounder, while the A50, A57 and A70 models require another depth unit to be in the network.
All units have two NMEA0183 ports, either of which can be connected to our WLN10 or WLN30.
Here is our wiring diagram:
Not to be confused with the latest touch screen a65 MFD, the original A60 and A65 units both had an NMEA0183 output that can be connected to our WLN10.
The wiring is the same for both units and a diagram can be found below.
The port must output and input data at the same baud rate, so if you already have an AIS connected to this port then you will need to configure the WLN10 or WLN30 baud rate to 38400 baud.
The Raymarine AIS650 AIS Transponder and AIS350 AIS Receiver has both NMEA 0183 and SeaTalk NG interface.
Both Raymarine AIS650 & AIS350 have two bidirectional NMEA 0183 ports with one port configured at 38,400 baud rate (high speed) and another port at 4,800 baud rate (low speed) so you need to connect the WLN10 or WLN30 to the high speed port.
You will need to configure the WLN10 NMEA interface at 38,400 baud (high speed). The WLN10 manual explains how to change the baud rate of the WLN10’s NMEA interface.
The Raymarine AIS700 AIS Transponder has both NMEA 0183 and NMEA 2000 interface.
The AIS700 has two bidirectional NMEA 0183 ports. Port 1 is preconfigured at 38,400 baud rate (AIS speed) and port 2 at 4,800 baud rate (instruments speed) so you need to connect the WLN10 or WLN30 to the port 1.
The C + E Series Widescreen Multifunction Displays had three NMEA0183 Ports, although only two of the ports were bi-directional (input and output), the third port only having an input.
It should also be noted that only one of the two bi-directional ports could be set to the high speed 38400 baud rate for AIS, so it is best not to connect the WLN10 to this port, if you intend to fit an AIS unit at a later date.
We recommend fitting the WLN10 to Port 1 as shown in the wiring diagram here.
The Classic C + E Series plotters had just one NMEA0183 Port to connect the WLN10 or WLN30.
The Raymarine Ray 50, Ray 52, Ray 60 or Ray 70 VHF radio has a SeaTalk NG (NMEA 2000) and NMEA 0183 interface.
If you want to send over WiFi AIS and GPS data from the VHF radio then go to the radio settings and select NMEA 0183 High Speed (38400 baud) for the NMEA output.
Then you have to configure the WLN10/WLN30 at 38400 baud (through its web interface).
Here is the diagram:
Autohelm, the UK autopilot and instrument manufacturer who were bought by Raytheon in the 1990s and then evolved in to what is now Raymarine, developed their own instrument interface called SeaTalk. After NMEA0183, this is probably the most common network found on boats and there are still tens, possibly hundreds of thousands of boats around the world that have a SeaTalk network onboard.
Our WLN10/WLN30 cannot connect directly to a SeaTalk network but there are usually one or two NMEA0183 outputs in the Autohelm, Raytheon or Raymarine system where our WLN10 can be connected to. Take the system below, most Multi-Function Displays have an NMEA port on them or perhaps the system has one of the SeaTalk to NMEA interface boxes (P/No E85001) which has an NMEA Ouput or an RS232 Output or you can also add our SeaTalk to NMEA converter, either of which can be connected to our WLN10 – Here is the wiring diagram for the SeaTalk to NMEA interface.
Originally the Autohelm ST50 Tridata and Multi instruments had an NMEA0183 Output and this was also true for the ST50+ range – for an ST50 or ST50+ instrument here is the wiring diagram:
By the time the ST60 range was released, the only instrument to have an NMEA0183 Output was the Multi instrument and when the ST60+ came out just the Graphic Display instrument had an NMEA0183 Output – For ST60 or ST60+ instrument, here is the wiring diagram.
There were also a number of Autohelm/Raytheon Chart Plotters and the popular Pathfinder range of MFDs (RC530, RL70, RL80C, etc.) that all had NMEA Outputs, that would transmit the SeaTalk Instrument data. Here is a diagram showing the pin out of the Pathfinder and Pathfinder+ unit’s NMEA OUT Cable.
Digital Yacht’s SeaTalk to NMEA 0183 (ISO) converter is a small but powerful interface that provides bi-directional conversion between a SeaTalk network and an NMEA0183 network or device. The ST-NMEA converter takes its power from the SeaTalk network. It features a full, multi-transistor SeaTalk 1 interface, an opto-isolated NMEA0183 input and differential NMEA0183 output. Therefore, key navigational data between the SeaTalk and NMEA0183 networks can be shared reliably.
The SeaTalk1 to NMEA 0183 (ISO) Converter is ideal for connection to one of Digital Yacht’s wireless NMEA servers, allowing SeaTalk owners to go wireless.
Here is how to connect our Seatalk1 to NMEA 0183 converter to our WLN10 or WLN30 NMEA to WiFi server:
The high end Simrad NSO systems have a single NMEA0183 port that can be connected to our WLN10/WLN30.
The port must output and input data at the same baud rate, so if you already have an AIS connected to this port then you will need to configure the WLN10/WLN30 baud rate to 38400 baud.
The Simrad NSS & NSE Series have just one NMEA0183 Port to connect the WLN10/WLN30 to.
The VHF radio Standard Horizon GX2200 has two NMEA interfaces. To send over WiFi the AIS data, you must set up the VHF radio NMEA output at 38400 baud. This is explained in the VHF radio manual.
The Tacktick Micronet instrument range features a proprietary wireless interface that cannot be directly connected to by tablets and smart phones. However, the T122 Wireless Interface has a single NMEA0183 Output that can be connected directly to the WLN10 input.
Tacktick were bought by Raymarine and the Micronet Instruments are now sold as the Raymarine Wireless range, which still includes the T122. Therefore, connection of our WLN10 to the latest Raymarine Wireless range is identical.
CRTX is an AIS transponder developed by the Swedish company True Heading. This AIS transponder has both NMEA 0183 and NMEA 2000 interface.
Here is the wiring diagram to explain how to connect the WLN10 or WLN30 to the CRTX:
Vesper is an AIS transponder with NMEA 0183 and NMEA 2000 interface. By connecting our WLN10 or WLN30 to the Vesper AIS transponder, you will receive all your AIS targets on navigation apps & software.
The Vesper AIS Transponder has a low speed NMEA 0183 port (4,800 baud) and a high speed one (38,400 baud).
You need to connect the WLN10 to the high speed one:
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There are 15 houseboat rental services in russia as of august 15, 2024; which is an 0.00% increase from 2023. the top three states with the most houseboat rental services are moscow with 4 houseboat rental services, krasnodar krai with 3 houseboat rental services, moscow oblast with 2 houseboat rental services. average age of houseboat rental services in russia is 1 years and 9 months., houseboat rental services are also establishing a strong digital presence across various platforms: 3 have facebook pages, 3 are active on instagram, and 4 have youtube channels. about 9 houseboat rental services have their own website and the remaining 6 don’t have their own website., number of houseboat rental services, email addresses, phone numbers, with websites.
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State/Territory | Population | Number Of |
---|---|---|
Moscow | 4 | |
Krasnodar Krai | 3 | |
Moscow Oblast | 2 | |
Leningrad Oblast | 1 | |
Saint Petersburg | 1 | |
Samara Oblast | 1 | |
Saratov Oblast | 1 | |
Tver Oblast | 1 | |
Voronezh Oblast | 1 |
There are a total of 15 Houseboat rental services in Russia as of August 15, 2024 .
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“NavLink 2 is an easy to fit NMEA 2000 to Wifi server designed to make NMEA 2000 navigation data available for apps on smartphones, tablets, iPads and PCs.”
NavLink 2 is an easy to fit NMEA 2000 to Wifi server designed so that NMEA 2000 navigation data can be made available for apps on smartphones, tablets, iPads and PCs. Installation takes seconds as a result of direction connection to the NMEA 2000 back bone and self-powered from the data network.
Once installed, it creates a local WiFi network for devices to connect or can be programmed to join an existing wireless network if one is already installed. This is ideal for devices like the Furuno wireless radar which require operation through their own dedicated network but require NMEA 2000 data integration for charting apps.
NavLink2 creates a secure, password protected, local Wi-Fi network which allows all NMEA 2000 data to be sent to popular iOS and Android apps such as Navionics, AquaMap, iSailor, Weather4D, SailGrib, iNavX, TimeZero and more.
NavLink2 supports both UDP (for multiple connections) and TCP/IP interfaces for maximum compatibility with apps so you can be using a PC at the chart table with an iPad on deck. It’s also bidirectional so apps can control an autopilot if they enable this function.
You can configure the NavLink2 through its own simple web interface, just open your web browser, enter the NavLink2’s IP address and you can filter NMEA sentences, change network name & password or even merge the WiFi to an existing WiFi network on board. So no complicated programming software or app required.
You can also choose a specific mode for the Navlink2, for instance, you can choose Raw NMEA 2000 mode or the AIS mode to only send AIS and GPS data to get a better result with an app that can only accept AIS & GPS data, such as Navionics. You can even view the received NMEA data in the web browser, for easy fault finding of issues.
Finally, The NavLink2 supports TCP and UDP network protocols for maximum compatibility with apps. If you want to have full bi-directional control of an autopilot, with guaranteed data integrity or you want to be the only person receiving the data, then select TCP. If however, you want to receive the same data on multiple devices, for instance a PC at the chart table and an iPad on deck, then select the UDP broadcast protocol.
Weight | 192 g |
---|---|
Dimensions | 180 × 145 × 40 mm |
All you need is to connect the NavLink2 to your NMEA 2000 backbone. It will take its power automatically from your NMEA 2000 network.
Our WLN10/WLN30 & NavLink2 have a built-in web interface and create a password protected WiFi network. With your tablet, PC or smartphone, if you scan for wireless networks, you should see a wireless network called “DY-WiFi-xxxx” where xxxx is a four-digit code unique to the product. The WiFi network might change according to your product version.
Make your device join this network and you will be asked to enter a password which is “PASS-xxxx” where xxxx is the same four-digit code as in your network name. You can change both the network name and password in the unit’s web interface.
For example, if your product creates the WiFi network: NavLink2-D4B6 then your password is PASS-D4B6
All configuration can be done through a simple web interface, just connect to the product’s Wi-Fi network then open your web browser, enter the product’s IP address (192.168.1.1) and you can set baud rates, multiplexing mode, network name, password and join an existing network.
We keep up to date reviews on our news blog at www.digitalyacht.net – search for Best Marine Apps for Android or iOS. Popular apps include Navionics, iNavX, TZ iBoat , iAIS, NavLink, iSailor, SeaPilot, Weather 4D, MaxSea TimeZero, SailGrib and literally 100s more.
Our products are also compatible with navigation software on PC/Mac/Linux.
We keep on our blog a list which explains how to configure all the popular navigation apps & software. This list explains how to configure a NMEA connection (UDP/TCP) on the app/software but also how to configure the AIS settings.
To see the list, please click here: https://support.digitalyacht.co.uk/how-to-configure-apps-software/
Up to 7 devices can connect using UDP. TCP/IP is a one to one connection format. PCs, MACs, Android, Linux and iPhone/iPad are all compatible.
Yes! You can program this through the web interface so you just have one Wi-Fi network on board with our product linked directly to your other Wi-Fi network as a client.
This works well as well with Furuno WiFi radar installations.
No internet connection is required. Many consumers get confused and automatically associate wifi with internet. The product creates a wifi network and the local iPad or tablet users searches for this in the same way they search for a wifi hotspot.
Once connected, NMEA data is sent over the local link created on board the boat.
The Wi-Fi will typically footprint a boat up to 25m LOA. Contact us if you need a bigger footprint or have a steel or carbon vessel.
Our iKonvert/NAVLink2 gateways make implementing NMEA 2000 much easier, with no old, proprietary libraries, just a simple serial protocol that is published online at…
https://github.com/digitalyacht/iKonvert/wiki/4.-Serial-Protocol
The gateways take care of all of the complicated address claiming, network discovery and NMEA 2000 network management, simplifying and speeding up your software implementation. Here is a link to our iKonvert Developers Guide on GitHub…
https://github.com/digitalyacht/iKonvert
You will need a copy of the NMEA 2000 Appendix B in order to decode the NMEA 2000 PGN data, which is available from the NMEA organization.
If you have not already developed software to read and write NMEA 2000 data, then you might want to look at the open source CANBoat software , which supports our iKonvert as detailed in the CANBoat Wiki, see link below. The developer Kees, has over a number of years, reverse engineered the NMEA PGNs and the data is translated in to a more simple and open JSON format.
https://github.com/canboat/canboat/wiki/ikonvert-serial
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This chapter, based on ethnographic fieldwork, explores cosmopolitanism through the prism of unifying and dividing processes and their impact on the identity of young Armenians living within the Armenian community in southern Russia's Krasnodar krai. The empirical research presented shows the ways in which cosmopolitan practices allow young Armenians to draw selectively on a variety of discursive cultural meanings, enabling them to combine sameness and difference into their everyday lives. Sameness is understood in terms of belonging to the Armenian diaspora – a discourse of unity that is encouraged by Armenian voluntary organizations and the Armenian Apostolic Church. Conversely, difference is the result of diverse narratives of migration, different places of origin and different dialects of Armenian language which all serve to form a hierarchy of power within the Armenian diaspora in Krasnodar krai.
Vahe Sahakyan
This essay complicates dominant discourse(s) on Armenian diaspora by exploring the concepts of 'ethnic' and 'diasporic' leadership in theoretical and comparative perspectives.
Nationalities Papers
Dmitry Chernobrov
In this paper, we explore the role of the early 20 th century Armenian genocide and the unresolved Karabakh conflict of the 1990s in identity among the new generation of Armenian diaspora-those who grew up after the establishment of the independent Armenian state in 1991. We draw on original interviews with diasporic youth in France, the United Kingdom and Russia-diasporas which were largely built in the aftermath of the genocide and the Karabakh war. Diaspora youth relate to these events through transmitted collective memories, but also reconnect with the distant homeland's past and present in new ways as they engage with new possibilities of transnational digital communication and mobility. Their experiences of identity shed light on how the new generation of diasporic Armenians defines itself in relation to the past; how this past is (re)made present in their interpretations of the Karabakh conflict and in everyday behaviors; and how diasporic youth experience the dilemmas of 'moving on' from traumatic narratives that for a long time have been seen as foundational to their identity.
Studies in Ethnicity and Nationalism
Ulrike Ziemer
... awareness of multi-locality amongst diasporic peoples stimulate a constant process of formulating and reformulating diasporic representations. ... Long-Distance Nationalism: Diasporas, Homelands and Identities. ... 'Citizenship and Identity: Living in Diasporas in Post-War Europe?. ...
My dissertation explores the conditions and actions that led to the transformation of a post-genocide Armenian dispersion into a transnational diaspora. Over time, banishment and mistreatment had forced large numbers of Armenians to abandon their ancestral homes in the Ottoman Empire. The most decisive manifestation of such displacement was the deportations and wholesale massacres during WWI, retrospectively defined as genocide, which resulted in large concentrations of survivors in the Middle East, Europe and the Americas. Using histories of Armenian communities and institutions, the Armenian language periodical press, and the information acquired through in-depth interviews with notable diaspora Armenians in Lebanon, France and the United States, I analyze the formative impact that changing international and host-country specific socio-political conditions have had on the ways in which Armenian elites and institutions defined and redefined their attitudes towards Soviet Armenia; how competing discourses on conceptions of the Armenian homeland, diasporic identities and incompatible ideologies and orientations towards Soviet Armenia clashed and led at once to the emergence of different forms of Armenian identity and to a transnational schism in the Armenian diaspora. I suggests that while genocide recognition after the fiftieth anniversary of the Armenian genocide in 1965 introduced a shared ground between the formerly hostile Armenian camps, by the mid-1980s, the prevailing institutional divisions produced homeland-centered and diaspora-centered paradigms of diasporic belongings. Throughout, my research considers the ways in which institutions and leaders aspired to forge and project transnationally coherent, aspirational Armenian identities, to which they worked to rally their constituencies, and juxtaposes these efforts to the actual subjectivity and fluidity of Armenian diasporic identities and self-images of subsequent generations, shaped under different host-country contexts. My study draws on theoretical and methodological principles developed in diaspora studies, transnationalism and globalization. It contributes to social constructivist perspective in diaspora studies by stressing the role of elites and institutions in the formation of the post-genocide Armenian diaspora and diasporic identities, and equally emphasizing the influences of changing international and host-country conditions and the policies of a state, projecting itself as the homeland.
Ethnic and Racial Studies
Tsypylma Darieva
... And, to what extent does an imagined ethnic patriotism create space for generating a new cosmopolitan sensibility and sociability among young people who look for new ways of identifying ... The many faces of cosmo-polis: border thinking and critical cosmopolitanism'. ...
Journal of Eurasian Studies
Nona Shahnazarian
Cultural-Historical Psychology
Maria Bultseva
The article considers whether support for multicultural ideology by the ethnic majority leads to a more inclusive sociocultural context for ethno-cultural minorities. We investigate the role of common superordinate identity in these relations on the example of Soviet identity in Armenia. A socio-psychological survey was conducted among 213 representatives of the ethnic majority of Armenia using the scale of multicultural ideology of J.W. Berry (2020), the scale of Soviet identity by K. Velkova (2020) and the scale of the permeability of social boundaries as adapted by M.R. Ramos et al. (2016). The results show that support for multicultural ideology by Armenians is positively associated with the permeability of social boundaries for Russians only if the Soviet identity is highly important for Armenians. To conclude, recategorization is influential for building inclusive sociocultural context and harmonizing intercultural relations.
Hamazasp Danielyan , Nina Kankanyan , Varak Sisserian
Preserving Armenian identity in Lebanon and in those countries where traditional Armenian diaspora institutions exist has been much easier than in Russia. Given the fact that Russia is hosting the largest number of ethnic Armenians? it is utterly important to understand the root-causes and implications for high degree of assimilation of Armenians in Russia? Naturally many factors weigh in the above-mentioned divergent outcomes of Armenians identity preservation in various countries. A big portion of these factors is predetermined by the realities of particular host country (political system, history and geography and etc), and are beyond the influence of Armenian communities of both Lebanon and Russia. However, the research conducted in these two countries showed, there are also factors that influence identity preservation that are within the scope of influence of Armenians. This research sets to claim that the existence of effective and interconnected web of institutions is one of the key reasons behind the success of Lebanese Armenians in keeping their identity strong and thriving. On the contrary, the lack of such sustainable institutions and the experience of sporadic mobilizations have been the characteristic features of the Russian Armenian communities. Based on the lessons learned from the experience of Lebanese Armenians institutions the research has developed a set of policy recommendations that can hopefully enhance the capacity of Russian Armenian institutions and increase the effectiveness of identity preservation efforts in Russia. Some of those recommendations, naturally, are targeting those institutions that exist in various Armenian communities of Russia. Consolidation of Armenian institutions and synchronization of their activities, as well as experience sharing within and beyond Russian Armenians, will positively affect identity preservation efforts among Armenian communities in Russia. However, taking into account the importance of the matter as well as the existing structures and opportunities, (re)organization and institutionalization of Russian Armenians should attract greater attention of the other actors as well; pan-Armenian institutions such as Armenian Apostolic Church and pan-diasporic organizations should do more to assist the efforts of Armenians residing in Russia. Most importantly the Armenian state should have more proactive role in mediating the existing grievances, mistrust and lack of institutional resources in Russian Armenian communities, especially taking into account the fact that there are a number of state institutions mandated with that task, Ministry of Diaspora being the main one.
In this article, we explore the role of the early 20th-century Armenian genocide and the unresolved Karabakh conflict of the 1990s in identity shaping among the new generation of Armenian diaspora—those who grew up after the establishment of the independent Armenian state in 1991. We draw on original interviews with diasporic youth in France, the United Kingdom, and Russia—diasporas that were largely built in the aftermath of the genocide and the Karabakh war. Diaspora youth relate to these events through transmitted collective memories, but also reconnect with the distant homeland’s past and present in new ways as they engage with new possibilities of transnational digital communication and mobility. Their experiences of identity shed light on how the new generation of diasporic Armenians defines itself in relation to the past; how this past is (re)made present in their interpretations of the Karabakh conflict and in everyday behaviors; and how diasporic youth experience the dilemm...
EVN Report Magazine, 6 (Spyurk/Diaspora)
The article foregrounds the complexities of diasporas, and the Armenian diaspora in particular, by briefly examining three conspicuous approaches to diaspora conceptualizations in theoretical and comparative studies of diasporas and the empirical realities of the Armenian diaspora. It is suggested as a conclusion to account both the discrepancies within theoretical and comparative studies of diasporas which complicate the conventional thinking and approaches to diaspora, and also the tensions between homeland-centrism/diaspora-centrism, ethnic/transethnic, Armenian speaking/non-Armenian speaking, religious/secular (and other) which exist within and across segments of the Armenian diaspora.
Hasnain Javed
German Ashqui
nezihe figen ersoy
Documentos de Trabajo Fundación Carolina
José Antonio Sanahuja , Francisco J. Verdes-Montenegro
Wszytko co Najważniejsze
Ryszard Szarfenberg
Ana Lopez Raez
ANTH.309: Egypt: Age of the Pyramids, Prehistory to 1550 BCE (lecture series by G. Mumford)
Gregory Mumford
European Foundation for South Asian Studies (EFSAS)
Studiedag Sint Janscentrum Den Bosch
Johan te Velde
Bruno Esteves
Ángel Murillo
Applied Clay Science
Fabio tateo
Rizmi Yunita
BMC Public Health
Annemarie Wagemakers
Utopian Studies
Bill Metcalf
Nucleation and Atmospheric Aerosols
Marion Merklein
jpsr.pharmainfo.in
Bhavana Patil
Jurnal Kependidikan: Jurnal Hasil Penelitian dan Kajian Kepustakaan di Bidang Pendidikan, Pengajaran dan Pembelajaran
Isna Farida
Stredoeurópske pohľady
Romana Javorčeková
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Digital Yacht's new WLN30 is a Smart Wireless NMEA to WiFi Multiplexer that takes iPad and tablet integration afloat even further. The ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet allows compatible apps to display and compute with real time information. The WLN30 ...
Digital Yacht's new WLN30 is a Smart Wireless NMEA to WiFi Multiplexer that takes iPad and tablet integration afloat even further. The ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet allows compatible apps to display and compute with real time information. The WLN30 ...
Digital Yacht's WLN30 Smart Wireless NMEA Mutiplexer takes iPad and tablet integration afloat even further with the ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet: allowing compatible apps to display and compute with real time information. The WLN30 creates a secure ...
To connect to the NMEA to WiFi server, you will need to scan for wireless networks, find and select it in the network list and then when prompted, enter the default WPA2 password, which is " PASS-xxxx ", where xxxx is the same, unique four digit code that is in the hotspot name. For instance, if you have a WLN30 and the WiFi network name ...
The WLN30 is a smart NMEA to WiFi Multiplexer designed to connect your smart phone and other wireless devices to your boat's navigation systems. It features ...
WLN30 Smart Wireless NMEA Multiplexer. Brand: Digital Yacht. 5.0 2 ratings. | Search this page. -8% $22659. Typical price: $245.43. This is determined using the 90-day median price paid by customers for the product on Amazon. We exclude prices paid by customers for the product during a limited time deal.
Digital Yacht's WLN30 Smart Wireless NMEA Mutiplexer takes iPad and tablet integration afloat even further with the ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet - allowing compatible apps to display and compute with real time information. The WLN30 creates a secure ...
Installation Step 3 - Powering the WLN30 • Connect the 12/24v DC supply to RED (+) and BLACK (-) wires of the PWR/DATA cable. • An in-line 1A fuse (not supplied) or suitable circuit breaker, should be wired in the positive power connection to protect the cabling. • Apply power and the three LEDs should start to illuminate or flash.
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Digital Yacht's new WLN30 Smart Wireless NMEA Mutiplexer takes iPad and tablet integration afloat even further with the ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet - allowing compatible apps to display and compute with real time information. ...
Digital Yacht's new WLN10 Smart NMEA 0183 to WiFi gateway takes iPad and tablet integration afloat even further with the ability to connect to existing on board GPS, AIS and instrument systems and transfer data wirelessly to an iPad or tablet - allowing compatible apps to display and compute with real time information. ... The WLN30 have 3 ...
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AIT1500, AIT2000 and AIT2500 AIS transponders from Digital Yacht do not have a WiFi interface. By interfacing a WLN10 or WLN30 to one of these AIS transponders, AIS and GPS data can be received in real time on navigation apps & software. It is a simple two wire connection between the AIT and WLN10. The Red(+) and Black(-) wires on both the AIS ...
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NavLink 2 is an easy to fit NMEA 2000 to Wifi server designed so that NMEA 2000 navigation data can be made available for apps on smartphones, tablets, iPads and PCs. Installation takes seconds as a result of direction connection to the NMEA 2000 back bone and self-powered from the data network. Once installed, it creates a local WiFi network ...
This chapter, based on ethnographic fieldwork, explores cosmopolitanism through the prism of unifying and dividing processes and their impact on the identity of young Armenians living within the Armenian community in southern Russia's Krasnodar
Krasnodar Krai, Russia GPS Satellite Navigation app will stand you in good stead, when you are worried about reaching an unknown place at the right time! This app is totally secure and thorough in its research. You can rest assured about reaching your destinations on time with this app for effective satellite navigation techniques. Smart Solutions Inc. Krasnodar Krai, Russia GPS Satellite ...