Cisco Aironet 1800 Series Access Points (discontinued)
Score 8.5 out of 10
N/A
Currently supported by Cisco, but no longer sold, Cisco recommends migration to the Cisco Catalyst 9100 Family of Access Points, which offer greater performance and flexibility.
N/A
Mojo Networks
Score 8.0 out of 10
N/A
Mojo Networks, headquartered in Mountain View, California offers a line of wireless networking products, namely their flagship product Mojo Networks' Cognitive WiFi.
N/A
Pricing
Cisco Aironet 1800 Series Access Points (discontinued)
Mojo Networks
Editions & Modules
No answers on this topic
No answers on this topic
Offerings
Pricing Offerings
Cisco Aironet 1800 Series Access Points (discontinued)
Mojo Networks
Free Trial
No
No
Free/Freemium Version
No
No
Premium Consulting/Integration Services
No
No
Entry-level Setup Fee
No setup fee
No setup fee
Additional Details
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More Pricing Information
Community Pulse
Cisco Aironet 1800 Series Access Points (discontinued)
Mojo Networks
Best Alternatives
Cisco Aironet 1800 Series Access Points (discontinued)
Mojo Networks
Small Businesses
WatchGuard Secure Wi-Fi Cloud
Score 9.2 out of 10
WatchGuard Secure Wi-Fi Cloud
Score 9.2 out of 10
Medium-sized Companies
Cisco Catalyst 9100 Access Points
Score 9.2 out of 10
Cisco Aironet 1800 Series Access Points (discontinued)
Cisco Aironet 1800 Series Access Points (discontinued)
Mojo Networks
Likelihood to Recommend
Discontinued Products
Cisco [Aironet Access Points] are well suited in offices where they can be managed by a wireless LAN controller (WLC). Using them in this way allows the APs to be well managed and security policies can easily be enforced down to users connecting to these APs for wireless access. Scenarios, where Cisco [Aironet Access Points] are less appropriate, are in small-office-home-office (SOHO) situations because of price and licensing costs to use a WLC to manage them. Thus, using them, in this case, would be that the APs would have to be in Autonomous mode, and the technical know-how in converting a lightweight AP to an Autonomous one is not straightforward.
With the range of models that are available, you can deploy the Mojo solution in any size environment; no matter the venue. We have deployed the solution in small and large college dorms, fitness facilities, and smart home apartments, with no issues. I have never had an issue deploying the Mojos in any of these environments.
Until 2018, our Aironets were 1560 series, and each was managed separately. We had about 9 devices, 3-4 per floor, strategically placed on each floor to get a good coverage map over a three-floor environment. Their coverage was greater than expected. With the latest 1852 models we have, they are managed by a controller, and frankly, the coverage is a smaller area, requiring more units. We have worked with support for months and this is the final outcome of all the setting changes - we simply need more devices to cover the same area.
None of the models I have used have needed reboots. We usually only reboot the devices annually, and they don't have issues requiring restarts.
With the 1560 series, the connection strength was extremely consistent. With the new 1852 model, which is managed by one of the WAPs as a controller, it is supposed to use smart technology to load balance (optional) and determine which of the WAPs is appropriate to connect the requesting device to - great idea - but it does NOT work well.
For some reason they user VLAN 0 as the native VLAN. I am used to VLAN 1 being the native VLAN for all solutions I work with. I had to retrain my mind to understand that Mojo uses VLAN 0. It may be a minor detail, but it would be nice if they have VLAN 1 as the native, like other vendors.
It would be nice to be able to create a predictive survey report using the web GUI.
If Cisco keeps innovating the feature sets on the next 1800 models, I would definitely try it out to improve the experience of my users and to keep them on the latest technologies
Pretty straightforward guide, which was built since OEAP600 AP's and never improved, this is a good thing for user to tackle when they configure the personal SSID, but does not reflect how it should be in 2020, where everything is mobile compatible and app ready. Cisco are going to have an app for this, but it comes with greater cost.
Performance is great until you hit load towards the higher end of its rated load. So if you have a super highly congested wifi area, you will want to either deploy a higher end unit or split the traffic to a few of these guys to not see bandwidth issues that you may see otherwise.
If you are able to identify the problem initially, you would be able to explain it to the TAC. In order for the TAC to understand it, the TAC engineer must be competent enough to understand it, and have the devices already in lab to test with. Each bug I encountered the TAC was able to help. And I was able to file at least 3 bugs on the 1815T and M.
The times I have needed to contact support, they were excellent. Making sure that the solution was operating at the level of what was expected, and taking the time to explain any features that I may have had a question about. They are customer-focused and strive to satisfy the customer every time.
Cisco Aironet has it place in the modern workplace and is great for single location deployments creating a good robust affordable solution. Installing them in a plant that has exposure to environmental elements they have stood the test of time, well so far. If you are looking for multi-location, multi-national or international deployments with a single plane of glass the Cisco Meraki MR's are a better choice, enhancing the time to deploy and ease of management.
It can easily support growth and be deployed in multiple locations. The access point has an integrated controller that can manage up to a certain amount of equipment in different locations. Setup is instantaneous and takes approximately 10 minutes to configure itself.
We can be in Mobility Express mode where the AP provides the controller functionality to support a small to medium deployment without requiring a dedicated controller.
Access Points are centrally managed via a WLC reducing the management overhead for deployment, configuration, and upgrade.
