How To Download Recorded Video From Smart Pss [2021]

so far I couldn't figure out how to record the smart play functions midi output in Logic. The manual and support pages aren't helping as well (or I missed it). Also doesn't help that the software and the controller are named the same. ;)

My understanding is that only the Midi notes you actually play (i.e. press with your fingers!!) actually get recorded. Then provided you replay with the same settings for Smart play you will hear the full chord/scale. As far as I know in Logic the only way to "record" the full midi is to bounce the midi file down to an audio track. Not ideal I think!

How To Download Recorded Video From Smart Pss

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Basically you need a second track that you can receive MIDI IN from another track. This is not possible or obvious in all DAWs and i'm not one to touch Logic personally but here is a video on how I do it in Ableton Live:

The more data points your watch records, the smoother and more accurate your track will be. The trade off for this is that it will consume more battery life, as well as more space in the device's memory. If you need a longer battery life or need to make sure you have more space for a longer activity, you will want to choose Smart Recording. If you want more accuracy and a track that follows your movement based on points that are recorded more often, you will want to choose Every Second Recording.

Just to clear things up, in automation read mode AND "Record Automation with MIDI regions" enabled, it is possible to record (press record button) MIDI CC messages even with the CCs assigned to smart controls as a MIDI region.

If you turn off your Smart TV while recording a program, the program may not be recorded correctly. Before turning off your Smart TV, stop the recording and ensure that the program was recorded successfully.

I though this smart service would have an option to do a full sync, but it needs the IDs of the record types to sync - well these are unknown since they were just inserted by the stored procedure in DB so not available yet.

You must be having a timestamp when these CSV files are introduced in the system, considering this is a repetitive activity.

If yes, you can schedule the sync of the records 2-3 minutes after the SP has been completed.

Or, if you are using a process model to write this data, then as you said, you can use the sync record smart service. Here is the link on how to configure it - _Records_Smart_Service.html

It requires you to provide primary keys of the record. You can run this smart service for the data you just inserted and if it is more than 1000 rows, then run this service in batching.

The sync records smart service was designed to keep your data up to date between full syncs, as data is updated on your external data source. You can use it in conjunction with the execute stored procedure smart service in your process model with a query after the stored procedure to retrieve the relevant primary keys to sync. You can incorporate a loop as suggested if your list is greater than 1000 records.

Note: we are getting the data from day 0 all the time - so this is an entire set of data either changed, new or the same. So currently the stored procedure does update on matching rows and insert on new rows

Another question is, if I have more record types related to each other from the same DB tables, is there any internal sync triggering when one record type is synced to force a related record type to sync too?

I echo what Harshit said, if you're getting a daily dump of the CSV files, could you just rely on the regular scheduled sync rather than trying to utilize this smart service? If your process to upload the CSV files runs at 4:00AM every day, just schedule your sync for 4:30 or something and you'll get the latest data pretty soon afterwards.

But in the timeline the doorbell still records a continuous stream of pictures, so that you can scroll through the day. You see the clouds moving and so on. It seems like this stream only takes a picture every minute or so, as you can't really see people walking around or cars driving by. Most times it's just one frame with a person.

Still this is not allowed in my country. You can't record public streets. As one of my neighbors is quite into his privacy I wouldn't be surprised if they try to challenge my promise not to record anything as long as it's not someone stepping foot on my premises. Is there a possibility to disable the continuous recording for the timeline and really only keep the smart detection recordings that I configured?

Objectives: Investigate the validity and reliability of markerless, smart phone collected, two-dimensional (2D) video, analysed using the 'Hudl technique' application, compared to three-dimensional (3D) kinematics during running, in participants with patellofemoral pain (PFP).

Conclusions: Measurement of peak HADD and KFLEX in runners with PFP using markerless, smart phone collected 2D video, analysed using the Hudl technique Application is invalid, with poor to moderate reliability. Investigation of alternate 2D video approaches to increase precision is warranted. At present, 2D video analysis of running using Hudl Technique cannot be advocated.

Goals: The main goals of our research are to detect if, how, when, and why smart speakers are unexpectedly recording audio from their environment (we call this activation). We are also interested in whether there are trends based on certain non-wake words, type of conversation, location, and other factors.

Instead, we came up with a much simpler approach: we turn to popular TV shows containing reasonably large amounts of dialogue. Namely, our experiments use 134 hours of Netflix content from a variety of themes/genres, and we repeat the tests multiple times to understand which non-wake words consistently lead to activations and voice recording.

Below is a list of some of our findings, with links to more details below. Everything described below is based on activations when the wake word was not spoken. Of course, all our findings pertain only to the source material (audio from selected TV shows) and we cannot make claims about more general trends.

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Smart luminescent materials that are responsive to external stimuli have received considerable interest. Here we report ionic iridium (III) complexes simultaneously exhibiting mechanochromic, vapochromic and electrochromic phosphorescence. These complexes share the same phosphorescent iridium (III) cation with a N-H moiety in the N^N ligand and contain different anions, including hexafluorophosphate, tetrafluoroborate, iodide, bromide and chloride. The anionic counterions cause a variation in the emission colours of the complexes from yellow to green by forming hydrogen bonds with the N-H proton. The electronic effect of the N-H moiety is sensitive towards mechanical grinding, solvent vapour and electric field, resulting in mechanochromic, vapochromic and electrochromic phosphorescence. On the basis of these findings, we construct a data-recording device and demonstrate data encryption and decryption via fluorescence lifetime imaging and time-gated luminescence imaging techniques. Our results suggest that rationally designed phosphorescent complexes may be promising candidates for advanced data recording and security protection.

The PXRD data, single-crystal structures and FTIR spectra showed that the observed mechanochromic and vapochromic phosphorescence originated from variations in the molecular packing mode and hydrogen bonds between the counterion and the ligand.

We acknowledge the funding support from National Basic Research Program of China (2009CB930601 and 2012CB933301), National Natural Science Foundation of China (61274018, 61136003, 21174064 and 21171098), the Ministry of Education of China (IRT1148), Program for New Century Excellent Talents in University (NCET-12-0740), Natural Science Foundation of Jiangsu Province of China (BK20130038), Priority Academic Program Development of Jiangsu Higher Education Institutions (YX03001).

Reasons for terminating an application: If for any reason you make the conscious decision to abort an application, make note of the reason. For example, stopped application at 2:15 pm since the wind shifted from the Southeast to the Southwest.

Wind direction during the application, taken in the area of the application: Record the direction from which the wind is blowing. Use something like a piece of flagging tape on an electric fence post to assess wind direction. For example, if you are looking eastward and the wind and flagging is blowing toward you FROM the east, you record an East Wind. When you apply in areas with concerns for off-target movement, consider actually getting a compass reading for wind directions, for example, 80-95 degrees from the east. Also note any other wind direction indicators, such as smoke plumes, dust, or flags in the near vicinity of the application area. Radio and TV reports do not suffice. 006ab0faaa